Is Arch Linux supportet by Alpha Bios

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• Computer freezes before BIOS after arch linux install

  This is my first time installing arch linux, I followed the beginners install guide word for word. However, after the install, my computer gets stuck before the BIOS. It identifies the RAM, GPU, and harddrive (all Diagnostic lights are ok on my MOBO). Before the install it booted fine, but now when I boot it up it wont go to the BIOS screen no matter how many times I press delete. However, when I remove the harddrive it boots to the arch linux install screen on my USB drive perfectly.
  I know it is not my hardware because I did many different tests (mem-test, swapped out harddrives, tried 1 stick of RAM in different slots, etc). More importantly, my harddrive is brand new so I know it isn't dead because I could partition it when I was installing arch linux.
  Computer specs:
  AMD Athlon 64 Processor 3700+
  DFI LANPARTY nf4-d
  ATI Radeon x800
  2 GB DDR RAM
  160 GB SSD
  I have no idea what the problem is, I must have screwed something up with the bootloader or something. Any help would be appreciated. Thanks.

  Try clearing the CMOS settings either by removing the motherboard battery for some minutes or by using the relevant jumper on the motherboard. Check the manual of your motherboard for details.
  Last edited by Foucault (2013-07-03 16:19:41)

• Arch Linux error - update bios or force_addr

  im installing it on virtualbox,
  ah brilliant, ill look into it!
  thanks

  Hi all,
  im getting through the process of installing arch linux and got to installing the gnome desktop, now im receiving this error and cant type any command!
  any help would be appreciated!
  This topic first appeared in the Spiceworks Community

• TidOS Public Alpha release (New Arch Linux based distro)

  I'm a regular lurker on the 4chan technology board (AKA /g/) and I've been following a project known as TidOS by the user "King Neckbeard". Think of it as a preconfigured/prericed Arch Linux installation for those that want a quick and dirty setup, something like Archbang with xmonad instead.
  King Neckbeard wrote:
  xmonad + conky + trayer + nm-applet make up the DE of sorts
  applications started via dmenu (firefox has a shortcut key)
  mpd, preconfigured
  Just Works
  POSSIBLE BUGS:
  >networkmanager applet not visible, to fix press win + r and type netfix or run netfix in a console
  >music not playing, to fix restart mpd and run mpc play
  Screenshots:
  Github:
  http://github.com/TidOS/TidOS
  ISO image download (i686 only, x86_64 users can compile an image themselves from the github sources):
  http://www.megaupload.com/?d=PJLRZ5I4
  Last edited by zowki (2010-05-13 16:24:34)

  jordanmthomas wrote:TidOS is dead by the way.  /g/ did not seem to care much about it so I haven't done anything to it since I made the first image.
  aww.
  well you are all welcome to poke your nose in at #witchlinux on irc.freenode.net , it's still alive, n welcomes everyone else's input.
  there's the arch rowan witch release, a half made archiso, which is basically to be pretty much the same as where the debian rowan witch.iso left off, and then later once it's built to some reasonably satasfactory standard, a larger fuller witch called jamella is planned to feature loads of tiling window managers, xmonad of course included, as well as awesome, and others, as well as a raft of programmer tools n toys, and then later a refined sleak but complete witch after that.   so goes my plan anyways, but of course, anyone can run off n make their own witch, and are encouraged to do so.    so if u want a preconfigured arch with xmonad, once we get rowan out of the stalls, jamella will soon follow after.   (i been distracted with other interests this past month or so tho, so my contributions dropping off have slowed things, but it's still alive, i assure you.)
  or....
  to stop me going on about witch... tidos could be revived!  XD
  and i wish you all the best with that.

• [SOLVED]Arch Linux / UEFI / BTRFS using Grub2 & Windows 8 in a 2nd HDD

  PROBLEM:
  ====================================================================================
  Dear fellas
  I just purchased an new HP TouchSmart 17.3" laptop that comes with Windows 8.1 pro (1 tb HDD + small SSD for cache only ) and still have space for one more HDD or SSD.
  I Google a lot and read a lot but many questions emerged since seems that no one has the same scenario (maybe I pick the wrong choices) like me.
  The problem is.. I didn't wish to re-install Windows 8.1 since it came with from factory.. so I purchased a 750 gb hdd and put it into the free slot to install Arch Linux in a different HDD.
  As I am not familiar with UEFI what I did was to reorder the hdds. I just put the Windows HDD as second disk and the new disk (For Arch Linux) as primary and changed into Bios from UEFI to compatibility mode and installed Arch Linux into the primary one.
  I reaaaally need help to add to grub the correct "path" to Windows 8.1 disk that came with UEFI..
  Anyone could please help me?
  Thanks in advance!
  ====================================================================================
  SOLUTION:
  A huge thanks to @TheSaint and other users for their help and assistance!
  More sources:
  http://www.kossboss.com/linux---arch-in … -grub-boot
  https://www.youtube.com/watch?v=METZCp_JCec#t=146
  https://bbs.archlinux.org/viewtopic.php … 1#p1390741
  Step by Step Summary:
  Use gdisk to create partitions on /dev/sda:
      - 512MB - EF02 type partition (for EFI boot)
      - 690GB - Linux partition for the BTRFS.
  - Create an EF00 (ESP) with 512mb
  - Create a Linux System partition with the rest of space
  Make the FAT 32 system for EFI boot:
  # mkfs.vfat -F32 /dev/sda1
  Make the BTRFS partition. If it complains about existing filesystems just add a "-f":
  # mkfs.btrfs -L arch -f /dev/sda2
  We will make out a root subvolume for sda1, this will be a folder called root located at the root of sda2. The way we will design this is that When the system boots we will not see /root, we will be inside root. Inside root you will have all of your etc,sys,proc,whatever folders etc.
  # mount /dev/sda2 /mnt
  # cd /mnt
  # btrfs subvolume create /mnt/root
  This should show you your root
  # btrfs subvolume list -a /mnt
  Something like this: ID 256 gen 5 top level 5 path root
  # cd /
  # umount /dev/sda2
  Now we will mount sda2 root subvolume as /mnt and we will dump the arch system into there with pacman. We will also enable compress to utilize btrfs compress feature.
  # mount -o defaults,compress=lzo,subvol=root /dev/sda2 /mnt
  NOTE: the command "mount" will not show which subvolume is mounted, to see how subvolumes are mounted you need to look inside proc (cat /proc/self/mountinfo):
  # cat /proc/self/mountinfo | egrep sda2
  The line for the mount of sda2 looks like this:
  43 21 0:34 /root /mnt rw,relatime shared:30 - btrfs /dev/sda2 rw,compress=zlib,ssd,space_cache
  We can see that the subvolume /root is mounted to /mnt from the device /dev/sda3
  Notice how with regular mount command its missing:
  # mount | egrep sda2
  /dev/sda3 on /mnt type btrfs (rw,relatime,compress=zlib,ssd,space_cache)
  Pacman will dump stuff into a boot folder, so we better mount our sda1 EFI boot partition to it. Or else all of the boot stuff will go to sda3 instead of sda1:
  # cd /
  # pacstrap -i /mnt base base-devel
  Let us create the directory and mount the EFI partition
  # cd /mnt
  # mkdir -p /mnt/boot/efi
  # mount /dev/sda1 /mnt/boot/efi
  Let us generate the FSTAB:
  # genfstab -p /mnt >> /mnt/etc/fstab
  Let us chroot into the arch installation:
  # arch-chroot /mnt /bin/bash
  Change password:
  # passwd
  Then pick the right one like this and associate it with a link to /etc/localtime
  # ln -s /usr/share/zoneinfo/US/Pacific /etc/localtime
  Let us generate the initial RAM disk
  # mkinitcpio -p linux
  Let us setup the bootloader (GRUB)
  # pacman -Syu grub efibootmgr
  Let us generate the grub configuration
  # grub-mkconfig -o /boot/grub/grub.cfg
  Let us install grub into the HDD
  # grub-install /dev/sda
  # umount -R /mnt
  # umount /mnt
  # reboot
  From this step you can go straight and forward with the https://wiki.archlinux.org/index.php/Beginners%27_guide
  Last edited by erickwill (2014-11-21 20:41:06)

  TheSaint wrote:As UEFI BIOS is a boot loader itself. You should make on each HDD an ESP.
  When you want to start win8 you go to BIOS and chose its entry, so will do for Arch the same.
  For this way I suggest you write to boot the kernel directly from the BIOS. It just take some reading on this topic
  Other option you set on you second ESP the boot loader of your liking and it will try to find win8 partition.
  Thanks for your reply.
  For the second option, may I use the compatibility mode and install the booloader into the first partition along with Arch?
  Or in case the first option is still the better option, could you pleaaaase give me some directions from the scratch? Do you have Google Hangout?
  Thanks in advance.
  Last edited by erickwill (2014-11-18 19:54:26)

• [SOLVED] Arch Linux Duke (2007) Fails to Boot

  Folks, I have a unique and challenging problem that has exhausted my Arch Linux skills, and so I am now turning to you.
  I have a vintage Pentium Pro 200 system (that’s 200 MHz folks! – 200 MHz 686 architecture – the original 686!), two CPUs, running a dual boot between Windows NT 4.0 and Arch Linux Duke (2007). It has 512 MB of RAM and a 120 GB hard drive, partitioned up between Windows NT and Linux. I built this system new in 2007, hence the dated version of Arch.  It has run like a charm all these years, granted not getting that much use. After about a year of no use at all, I fired the system up last week to help with a little research for a blog post I was writing on networking Windows NT 4.0 and Mac OS 8.6. Windows NT 4.0 fired right up with no issue, and after I was done testing what needed to be tested I tried to boot over to Arch.
  After a year of disuse, Arch unexpectedly and stubbornly refused to boot. The boot process started up just fine, but towards the end, it declared that it could not mount the root file system on the root device and took a kernel panic and stopped. My Arch skills have gotten a bit rusty in the last few years, but I dusted them off and went to work. My guess was a file system or superblock error. Arch wouldn’t boot, but I dragged out my trusty RIPLinux 2.9 Rescue Live CD and fired it up. It came right up and ran, and I was able to mount the Arch partition and view all the files… everything seemed to be there; it just wouldn’t boot. Windows NT 4.0 AND RIPLinux both boot and run on the machine, so the hardware is fine as well.
  A little information on the disk layout. Windows NT 4.0 is in the first partition on the hard drive. The extended partition has a second Windows NT 4.0 partition (sort of a /home partition for Windows NT 4.0), followed by the main Arch partition (the one I am trying to boot), followed by a swap partition and then the largest partition, which I use to share data between Arch and Windows NT 4.0 (I have loaded an ext2/3 driver into Windows NT 4.0 and it happily accesses the Linux partitions on the box).
  RIPLinux’s e2fsck did find some issues with the Arch partition and I had it repair them all. I checked again afterwards that all the files were still there, and they were. With the partition now known to be clean, and the superblock repaired from one of the backups, all should have been well. However, Arch still wouldn’t (and still won’t) boot.
  RIPLinux has a kind of a chain loader function, so I had it attempt to start up Arch for me. However, this was flummoxed by the fact that Arch addresses all my hard drive partitions as /dev/sdax and RIPLinux addresses them as /dev/hdax. Hence, without a common language, it was hard to get the one to start the other. Still, using this function, I have been able to get a crippled version of Arch running on the machine again. No modules had been loaded, and so it couldn’t do almost anything, but there it was (and is), Arch Linux Duke, at the CLI level. From there, I can see all the files, I can move freely in and out of my user account and the root account, but I can’t make the thing actually boot properly.
  If you have read this far, you are a trooper.  Summarizing what I know, the hardware is good, the file system is clean, the superblock is good, I can mount it cleanly from a live CD and I can chain load a crippled version of Arch. Here is the boot process blow-by-blow. When I try to do a normal boot, the Windows NT 4.0 loader passes control to the Lilo boot sector I have placed on hda1 (sda1 in Duke’s parlance). Lilo takes over, present a menu and when I select Duke, takes off. Arch Linux Duke starts to boot. It gets a good long way along, all the way along to:
  :: Loading udev events                [Pass]
  :: Mount root Read-only
  :: Checking file systems
  This is where it stops.
  The next thing I see is:
  /dev/sda6
  The superblock could not be read or does not describe a correct ext2 filesystem. If the device is valid and it really contains an ext2 filesystem (and not swap or ufs or something else) then the superblock is corrupt and you might try running e2fsck with an alternate superblock:
      E2fsck –b 8193 <device>
  I then get a sort of character based splash screen that says
  **********FILE SYSTEM CHECK FAILED ****************************
  *   Please repair manually and reboot. Note that the root file system
  *   is currently mounted read-only. To remount it read-write, type:
  *   mount –n –o remount,rw /.  When you exit the maintenance
  *   shell, the system will reboot automatically
  Give root password for maintenance
  At this point, I give the root password and enter the maintenance shell as root. I typed in “mount” and the first entry I got back is
  /dev/sda6 on / type ext3 (rw)
  This is exactly the root partition that the start up complains about. It is clearly there.  I can see it, I can walk around it… it is clearly there. Why won’t it boot? Despite the message, the superblock is fine – it passes every test e2fsck can throw at it.
  At this point, I did a “e2fsck /dev/hda6 (which is how RIPLinux would have passed it into Arch” and it says it is “clean”. I suspect that the Superblock message is because Arch sees root as sda6, while RIP passed it in as hda6...
  Deciding to see what Arch would be seeing as it tried to set things up in the boot sequence, I tried the following next:
  # mknod “/dev/root2” b 3 6   
  (“3” because RIPLinux refers to my hard drive as IDE, while Arch refers to it by major number “8”, which is SCSI. By the way, it IS an IDE drive – not sure why Arch insists on using the sdx nomenclature instead of hdx)
  Then I entered “mount /dev/root2 /mnt/hda6” and “ls /mnt/hda6”
  All was well. I can make the node, I can mount it, and I can see the contents. All is clearly well, but something is clearly wrong enough that Arch can’t boot.
  I am totally out of ideas. I have tried every trick I know and am out of tricks. I would welcome any insights as to what I could try to get this venerable Arch installation back on its legs.
  By the way, the key section of the /etc/lilo.conf file (lest anyone want to know) is:
  image = /boot/vmlinuz26
     root = /dev/sda6
     label = ArchLinux-Duke
     initrd = /boot/kernel26.img
     read-only
  I am stumped. Thanks in advance for any and all pointers you may be able to offer.
  Last edited by mac57 (2014-06-02 17:42:21)

  Folks, thanks for all your helpful comments, and I wanted to report back to you that I finally overcame the issue, and ArchLinux-Duke (2007) is once again executing flawlessly on my old Pentium Pro 200 system. I won't bother reporting here all the blind allies I went down as I tried to figure out what was wrong, but in the end, literally moments before I was about to give up and overwrite my Arch installation with a new Linux variant (antiX seemed well suited for such old and low power hardware), my attention was drawn to a note I had made in my files back in 2007 about a problem with similar symptoms. In that case, I had just deleted ZenWalk Linux from the hard drive (both Arch and Zen had been on the drive), and merged several partitions to make use of the newly free space. This had changed Arch's view of the drive lettering, and what had been its /dev/sddx root device was now /dev/sdcx. Arch failed to boot, throwing off the same errors I was seeing now. I wish I had recalled that note a month or so ago! It would have saved me a lot of work and a lot of frustration.
  At any rate, as a last step, and testing the idea that maybe the drive lettering had changed for some reason, I repeatedly manually booted Arch, specifying root=/dev/sda6, then /dev/sdb6, then /dev/sdd6, and finally, /dev/sdc6. Eureka! Arch now considered itself to be on /dev/sdc6 whereas previously it had been on /dev/sda6. This got me part way there, but the boot failed at the filesystem check stage and threw me into root. I disabled the file system check in /etc/rc.sysinit and got farther. Then I cleaned up /etc/fstab to agree with the new sdc naming, and I was back on the air fully.
  So, what had happened was that Arch had changed its view of the drive it was on from sda6 to sdc6. While I could not understand why this "sudden" change had occurred, at least I had a solution, and had Arch back up and running.
  Trolling through the rest of my notes, I found the answer. In 2012, the Tekram SCSI card in the machine failed, and I ultimately replaced it with an Adaptec card. The Tekram card did not have a BIOS segment on it. The Adaptec card did. My guess is that this caused the two internal SCSI devices I have built into the system (Iomega ZIP and Jaz respectively) to be enumerated first, claiming the "sda" and "sdb". device names. That left "sdc" for the root device, and that is where Arch went next.  This is my guess anyway.
  I should have caught this issue back in 2012, at the time, but from my notes, I can see that I tested the new card thoroughly using the  Windows NT 4.0 side of the machine, but never thought to bring up Arch as well. Hence, this problem lay dormant for two years, before I attempted to fire up Arch last month and blundered right into it.
  It has not all been bad. I have learned more about the ext2 and ext3 file systems and superblocks in the intervening time than I will ever need to use. I have learned how to manually boot Linux on a machine whose BIOS is so old that it cannot address the disk cylinder that the kernel is on and I have completely refreshed the many general Linux skills that used to just flow from my finger tips. It has been a frustrating experience, but ultimately a successful and useful one.
  Just wanted to let everyone know that this is now [SOLVED]. I would mark the post as such, but I don't see any obvious way to do that. Thanks again everyone.

• Progress on Unity under Arch Linux!

  See here for information about the new GNOME 3.12-compatible packages: https://bbs.archlinux.org/viewtopic.php … 3#p1404683
  I'm now on IRC! Come join us at #unityforarch on Freenode
  To install Unity from my repos:
  See the wiki: https://wiki.archlinux.org/index.php/un … mmended.29
  To install Unity from source:
  See the wiki: https://wiki.archlinux.org/index.php/unity#From_source
  -- You probably don't want to read anything below --
  The story
  So...rather than wasting internet bandwith to download a new Ubuntu ISO to test out the new Unity features, I decided to try to make it work under Arch Linux. It took a whole lot longer than I expected to get it even partially working. So, here's my story:
  Knowing that Unity isn't in the main repositories, I went the AUR's website and looked for a user created Unity package. That didn't go too well. The Unity package hasn't been updated for 6 months. D'oh! I decided to download the existing PKGBUILD and modify it to work with the Unity 4.xx series. After changing the version number, I tried to "makepkg" it, and was greeted with a message about installing Compiz 0.9.x. I thought it would be an easy install. It was quite the opposite. Compiz's install prefix was set to /opt/unity, but FindCompiz cmake build file expected Compiz to be in /usr, so none of the Compiz packages, except for compiz-core would compile. Then, I tried reinstalling compiz-core, but this time, changing the prefix to /usr. The compiled package ended up being only a few kilobytes big. I guess the mouse wheel was invented for a reason. I looked at the PKGBUILD again, only to find that there was a line at the very bottom that ran "rm -rf ${pkgdir}/usr". That explains a lot! I ended up adopting all the compiz*-git packages and fixing them so they would compile and install.
  So, now that Compiz is working (restarted and tested just to make sure I didn't waste my time with something that didn't work), I went on to install the rest of the dependencies listed in the Unity PKGBUILD file. That went relatively well. I was so happy after seeing the progress counter go up after running "makepkg", but at about 8%, gcc spat out an error about an undeclared function (sorry, I forgot what the function was). Natually, I went to Google and searched the name of the function. 0 results! Exactly was I was looking for! I ended up downloading the Ubuntu 11.10 Alpha 3 ISO and running "find -type f /usr/lib | xargs objdump -T | grep the_function". The problem lied in the libindicator package. There was a newer version available which contained that function. I have no idea why a package that's only 0.02 versions ahead of the AUR package would contain new functions...
  Next! Utouch...ugh...great memories! Not! I was so glad that I had fixed the utouch packages earlier (for touchegg to work). I was too frustrated from compiz and libindicator to try to compile more stuff.
  Cmake. Whoever created the CMakeLists.txt file didn't list all the dependencies required. So after running "makepkg" 10 billion times, waiting for "somebodydidntputthisincmake.h not found" errors to appear, I finally got all the dependencies I needed installed...or so I thought. After installing and compiling all these dependencies, the cmake only continues 3% further before encountering another cryptic gcc error. This time, there no error about a file not being found. So not knowing what dependency was missing, I headed over to http://packages.ubuntu.com and downloaded the Unity DEB source to find the dependencies in then debian/control file. After install those few dependencies that I missed, I ran "makepkg" again, hoping that it would finally compile successfully. CMake went a little further--5% further to be exact--before running into another error. It complained about DndSourceDragBegin() having two return types. Sure, enough "./plugins/unityshell/src/ResultViewGrid.h" had the return type as boolean and "/usr/include/Nux-1.0/Nux/InputArea.h" had the return type as void. WTF? How the heck does this even compile under 11.10???
  After changing void to bool in "/usr/include/Nux-1.0/Nux/InputArea.h", I ran "makepkg" once again anxiously waiting to the see the line "Finished making: unity 4.10.2". CMake compiled about 35% before running into error about an undeclared gtk function. Nooooooooooooo!!! I wasn't brave enough to install the git version of gtk3, so I created a chroot, installed the base packages, and installed all of those dependencies fairly quickly (it gets a lot easier after doing it so many times).
  Moving on to gtk3. After cloning the ~200MB git repository, autotools spits out an error about cairo-gl missing. So, I proceeded to install the cairo-gl-git package, which failed to compile (it compiled successfully outside of the chroot...). GREAT. So, Unity fails to compile because GTK version is too old, and GTK failed to compile because cairo-gl is missing, and cairo-gl fails to compile because I'm in a chroot. GAHHH!!! While thinking about throwing the computer out of the window, I searched the AUR for other GTK3 packages. I just happened to find a package named "GTK3-UBUNTU"! That package was still at version 3.0, but it was pretty easy to get the patches and source code for 3.1 from the Ubuntu GTK source package.
  So, FINALLY, Unity compiles. I was so darn happy, I didn't even care if it ran or not. I logged out and logged back into the GNOME 3 fallback mode, and entered the chroot. After running "xhost +SI:localuser:chenxiaolong" to run X11 apps in the chroot, I crossed my fingers and ran "DISPLAY=:0.0 unity --replace". It failed with python 3 complaining about missing modules. That's okay, since the Unity launch script is written in python 2. I changed the shebang line in "/usr/bin/unity" to point to python 2 and ran "DISPLAY=:0.0 unity --replace". It didn't necessarily fail, but it didn't succeed either. It didn't print out any error messages. Weird... I thought I'd try enabling Unity from the compiz settings manager then. I ran "DISPLAY=:0.0 compiz --replace" and "DISPLAY=:0.0 ccsm" and enabled the Unity plugin. Unity runs! Although nothing shows on the screen, it runs! It shows up in the process list! Woohoo!
  And that's about how far I got. There were quite a few Vala errors during the compiling process (I forgot which package it was), which is probably why Unity won't appear. I'll try again later with the vala-devel or vala-git package and hopefully Unity will work then. Here are screenshots of what I've gotten working so far:
  http://i.imgur.com/7F1fm.jpg
  http://i.imgur.com/zGNJc.jpg
  http://i.imgur.com/3mCgd.jpg
  By then way, I love the simplicity of pacman and the AUR. I can't imagine how long this would have taken with other package managers.
  Moderator edit:  Do not place large images in line.  If you want, you may embed links to thumbnails inside url tags.
  Last edited by chenxiaolong (2014-04-15 17:11:04)

  City-busz: I'm getting a ton of Vala errors when I compile libunity (AUR version) with vala or vala-devel. libunity fails to compile with vala-git. I'll try your packages in a virtual machine and see how they work on 64 bit.
  In the meantime, Unity still fails to show up: http://i.imgur.com/btPwo.png I'll try out your PKGBUILDS and see how that works. I'm glad there are people who want to port Unity to Arch Linux
  EDIT: City-busz: Just to let you know, Unity will fail to compile at around 45% with GTK 3.0. Here's my source packaage for Ubuntu's GTK 3.1: http://ubuntuone.com/p/1EzX/ It contains all of the patches in the Ubuntu source package. I'm not sure if all the patches are needed, but GTK compiles fine with all of them.
  EDIT2: Right now, I'm trying to compile Vala 0.10.4, then version used in Ubuntu 11.10. Hopefully that will eliminate some of the Vala errors.
  EDIT3: Vala 0.10 is too old. 0.12 and 0.14 are also in the Ubuntu repository. Trying those...
  EDIT4: 0.14 is actually 0.13.1. Gah... Vala takes longer to compile under VirtualBox than GTK3...
  EDIT5: Okay...so VirtualBox "helpfully" became slow enough that I could read the error messages. The Vala error messages aren't actually error messages, but rather warnings about unused methods. I wonder what prevents Unity from running then...
  Last edited by chenxiaolong (2011-08-30 02:30:29)

• HOWTO: Repairing a headless Arch Linux system that fails to boot

  The scenario...
  I have a "headless" (no monitor or input peripherals) Arch Linux computer that is connected to a local network via a wireless adapter, and accessed from other computers via SSH.
  Earlier today I accidentally broke its kernel so it did not boot anymore.
  Idea: Temporarily connect a monitor to the computer, boot from a live CD (like the Arch Linux install CD), then chroot into the system and fix it.
  Problem: I didn't have a compatible monitor at hand.
  Idea: Log in to the live CD session from another computer via SSH.
  Problem: The live CD can't auto-configure the headless computer's wireless connection, and setting it up manually while working "blind" would be a major hassle. A direct LAN connection to the router wasn't available either.
  Idea: Connect directly with a laptop via an Ethernet cable, and then use SSH from the laptop => This solution worked for me!
  If you find yourself in a similar situation, you can follow this tutorial which describes the solution that worked for me in detail...
  You need:
  a copy of the Arch Linux install CD (I used the 2013-05-01 version)
  an Ethernet cable
  a keyboard (might be dispensable, with additional preparation)
  a functional Arch Linux laptop (or other computer within physical range)
  Step 1) Prepare the live CD...
  I used the plain Arch Linux install iso, burnt to CD.
  By creating a carefully customized version of the live CD using Archiso, you might be able to eliminate the need for steps 2 and 4 - however that's not covered in this tutorial.
  Step 2) Prepare the laptop...
  The laptop needs to be configured in such a way, that the live CD's attempt to automatically establish an Ethernet connection with it will succeed:
  a) IP address
  In my case, the Laptop's wireless adapter had an IP address in the range 192.168.1.*, connecting it to the local network and Internet via the central router 192.168.1.1.
  The Ethernet connection between the laptop and the headless computer becomes a separate mini-network, for which I decided to use IP addresses in the range 192.168.0.* (note the different third number). Specifically, I set the IP address of my laptop's Ethernet card to 192.168.0.1. You can do this by running the following as root (replace "eth0" with the name of your Ethernet interface):
  ip link set eth0 up
  ip addr add 192.168.0.1/24 dev eth0
  b) IP forwarding (optional)
  While we're at it, we might as well enable IP forwarding, so that the live CD session on the headless computer will be able to directly use the laptop's outgoing Internet connection (which will make it much more convenient to install/upgrade packages during the repair session). To enable this, run the following as root (replace "eth0" and "wlan0" with the names of your laptop's Ethernet and wireless interfaces, respectively):
  iptables --table nat --append POSTROUTING --out-interface wlan0 -j MASQUERADE
  iptables --append FORWARD --in-interface eth0 -j ACCEPT
  sh -c "echo 1 > /proc/sys/net/ipv4/ip_forward"
  c) DHCP
  The live CD will assume there's a router on the other side of the Ethernet link, and ask for an IP address via DHCP. So all we need to do, is run a dhcp server on the Laptop that will answer this request. It's surprisingly easy: Just install the package dnsmasq, and put the following in the file /etc/dnsmasq.conf (again replacing "eth0" as appropriate):
  interface=eth0
  dhcp-range=192.168.0.2,192.168.0.2
  By setting the start & end values of dhcp-range to the same IP address, we enforce that this specific IP address will be used by the live CD on the headless computer.
  Then start the daemon by running the following as root:
  systemctl start dnsmasq.service
  Step 3) Connect everything and boot up the live CD...
  Connect the laptop and the headless computer via the Ethernet cable.
  Connect the external keyboard to the headless computer.
  Then put the Arch Linux install CD into the headless computer's drive, and boot. Wait a minute or so to give the CD time to load its boot menu (you should hear the CD drive spin up and settle down again). Then hit ENTER on the connected keyboard, to activate the default menu choice (which will boot straight to a live Arch Linux session with root privileges).
  You can check whether it booted up and successfully initialized the Ethernet connection, by ping'ing the IP address that was specified in step 2c) from the laptop:
  ping -c3 192.168.0.2
  Step 4) Start the SSH server...
  Unfortunately, the Arch Linux install CD doesn't automatically start its SSH server, and also it uses a randomized root password. To make SSH connections possible, you will have to use the connected keyboard to type in some stuff "blindly" (but it's simple enough):
  type "passwd" (without the quotes)
  type in a new password of your choice
  press ENTER
  type in the same password again
  press ENTER
  type "systemctl start sshd" (without the quotes)
  press ENTER
  Step 5) Connect from the laptop via SSH...
  Now you can open an SSH connection, by executing the following on the laptop (when it asks for the password, enter the one you chose in step 4):
  ssh [email protected]
  Step 6) Profit!
  Within this SSH shell on the laptop, you can now do whatever you would usually do to fix an Arch Linux system from a live CD.
  You'll probably want to chroot into your Arch root partition, which is very easy thanks to the arch-chroot tool that is included on the live CD (replace "/dev/sda3" with the name of the headless computer's root partition):
  mount /dev/sda3 /mnt
  arch-chroot /mnt
  If you set up IP forwarding as described in step 2b), then Internet access should magically work in this shell without any further configuration, so you can freely use pacman etc. inside the chroot.
  Enjoy!
  Last edited by sas (2013-07-26 22:17:03)

  It is definitely able to recognize the USB and DVDs as separate drives; it gives the option of booting from USB, and it gives the memory capacity of the USB drive I used as a live USB, and the memory used for the live CD.  But when it comes time to actually boot, something is going wrong.
  I would suspect it is a problem with the BIOS, if not for the fact that I had a similar issue on my previous system, which used a completely different motherboard.  If it is the same issue, it would either have to be a problem with the DVD drive (although I don't know why it would be against loading some live CDs but not others) or perhaps the way I created the live CDs.  Although, again, I don't understand why the Linux Mint 32-bit DVD would work fine, while both 64-bit DVDs would not.
  I will try using a different DVD drive to boot the DVDs, and if that does not work, I'll try creating a new Arch live CD to see if I can resolve the issue.  But if anyone has any ideas, it would still be greatly appreciated.

• [SOLVED]Arch Linux, and Windows 8.1 Dual Boot issue

  Hi guys. I recently bought a new laptop, and decided to run Arch Linux and Windows 8.1. I installed Windows 8.1 first as recommended by the beginners guide, and then installed Arch Linux. I made sure UEFI was enabled in my BIOS, and made sure everything was on a GPT partition. The install itself went fine. My laptop loads grub, and Arch Linux shows up and boots, but there is no option to boot into Windows 8.1. The only way I can boot into Windows 8.1 is by accessing my motherboard, and choosing to launch the windows boot manager instead of the grub launcher. How can I get Windows 8.1 to show up in grub? Thanks in advance guys.
  Last edited by Painguy (2014-08-20 20:19:37)

  Painguy wrote:
  -----------Edit------------------
  Yeah just ran this after installing os prober
  grub-mkconfig -o /boot/grub/grub.cfg
  and it works now. Sorry for the crazy posts guys. Thanks for the suggestions and help.
  Yeah I'm sure I'm doing something wrong lol. I did not install OS-Prober. I think that's where the issue is. I'm missing the menu entry in grub.cfg right? Do I just run os prober or do I have to manually edit grub.cfg.
  If that's not the case then here is what I did up until now. What I did was start with a blank SSD drive. I used cgdisk to make the disk use a GPT partitioning scheme. I installed windows 8.1 and checked in windows to make sure it boots into UEFI-GPT mode and it does.  I then installed arch linux using the beginners guide. I made sure to use cgdisk to create any extra partitions, and installed GRUB to the efi partition that windows had created ( I did not format this partition ). I then finished the installation and rebooted, and Grub only shows arch linux. I don't think I'm dealing with anything MBR related. I made sure I used the GPT partitioning scheme....i think lol.
  All you need to do is run os-prober then run grub-mkconfig. It should pick up Windows at that point.

• System encryption using LUKS and GPG encrypted keys for arch linux

  Update: As of 2012-03-28, arch changed from gnupg 1.4 to 2.x which uses pinentry for the password dialog. The "etwo" hook described here doesn't work with gnupg 2. Either use the openssl hook below or use a statically compiled version of gnupg 1.4.
  Update: As of 2012-12-19, the mkinitcpio is not called during boot, unless the "install" file for the hook contains "add_runscript". This resulted in an unbootable system for me. Also, the method name was changed from install () to build ().
  Update: 2013-01-13: Updated the hook files using the corrections by Deth.
  Note: This guide is a bit dated now, in particular the arch installation might be different now. But essentially, the approach stays the same. Please also take a look at the posts further down, specifically the alternative hooks that use openssl.
  I always wanted to set up a fully encrypted arch linux server that uses gpg encrypted keyfiles on an external usb stick and luks for root filesystem encryption. I already did it once in gentoo using this guide. For arch, I had to play alot with initcpio hooks and after one day of experimentation, I finally got it working. I wrote a little guide for myself which I'm going to share here for anyone that might be interested. There might be better or easier ways, like I said this is just how I did it. I hope it might help someone else. Constructive feedback is always welcome
  Intro
  Using arch linux mkinitcpio's encrypt hook, one can easily use encrypted root partitions with LUKS. It's also possible to use key files stored on an external drive, like an usb stick. However, if someone steals your usb stick, he can just copy the key and potentially access the system. I wanted to have a little extra security by additionally encrypting the key file with gpg using a symmetric cipher and a passphrase.
  Since the encrypt hook doesn't support this scenario, I created a modifed hook called “etwo” (silly name I know, it was the first thing that came to my mind). It will simply look if the key file has the extension .gpg and, if yes, use gpg to decrypt it, then pipe the result into cryptsetup.
  Conventions
  In this short guide, I use the following disk/partition names:
  /dev/sda: is the hard disk that will contain an encrypted swap (/dev/sda1), /var (/dev/sda2) and root (/dev/sda3) partition.
  /dev/sdb is the usb stick that will contain the gpg encrypted luks keys, the kernel and grub. It will have one partition /dev/sdb1 formatted with ext2.
  /dev/mapper/root, /dev/mapper/swap and /dev/mapper/var will be the encrypted devices.
  Credits
  Thanks to the authors of SECURITY_System_Encryption_DM-Crypt_with_LUKS (gentoo wiki), System Encryption with LUKS (arch wiki), mkinitcpio (arch wiki) and Early Userspace in Arch Linux (/dev/brain0 blog)!
  Guide
  1. Boot the arch live cd
  I had to use a newer testing version, because the 2010.05 cd came with a broken gpg. You can download one here: http://releng.archlinux.org/isos/. I chose the “core“ version. Go ahead and boot the live cd, but don't start the setup yet.
  2. Set keymap
  Use km to set your keymap. This is important for non-qwerty keyboards to avoid suprises with passphrases...
  3. Wipe your discs
  ATTENTION: this will DELETE everything on /dev/sda and /dev/sdb forever! Do not blame me for any lost data!
  Before encrypting the hard disc, it has to be completely wiped and overwritten with random data. I used shred for this. Others use badblocks or dd with /dev/urandom. Either way, this will take a long time, depending on the size of your disc. I also wiped my usb stick just to be sure.
  shred -v /dev/sda
  shred -v /dev/sdb
  4. Partitioning
  Fire up fdisk and create the following partitions:
  /dev/sda1, type linux swap.
  /dev/sda2: type linux
  /dev/sda3: type linux
  /dev/sdb1, type linux
  Of course you can choose a different layout, this is just how I did it. Keep in mind that only the root filesystem will be decrypted by the initcpio. The rest will be decypted during normal init boot using /etc/crypttab, the keys being somewhere on the root filesystem.
  5. Format  and mount the usb stick
  Create an ext2 filesystem on /dev/sdb1:
  mkfs.ext2 /dev/sdb1
  mkdir /root/usb
  mount /dev/sdb1 /root/usb
  cd /root/usb # this will be our working directory for now.
  Do not mount anything to /mnt, because the arch installer will use that directory later to mount the encrypted root filesystem.
  6. Configure the network (if not already done automatically)
  ifconfig eth0 192.168.0.2 netmask 255.255.255.0
  route add default gw 192.168.0.1
  echo "nameserver 192.168.0.1" >> /etc/resolv.conf
  (this is just an example, your mileage may vary)
  7. Install gnupg
  pacman -Sy
  pacman -S gnupg
  Verify that gnupg works by launching gpg.
  8. Create the keys
  Just to be sure, make sure swap is off:
  cat /proc/swaps
  should return no entries.
  Create gpg encrypted keys (remember, we're still in our working dir /root/usb):
  dd if=/dev/urandom bs=512 count=4 | gpg -v --cipher-algo aes256 --digest-algo sha512 -c -a > root.gpg
  dd if=/dev/urandom bs=512 count=4 | gpg -v --cipher-algo aes256 --digest-algo sha512 -c -a > var.gpg
  Choose a strong password!!
  Don't do this in two steps, e.g don't do dd to a file and then gpg on that file. The key should never be stored in plain text on an unencrypted device, except if that device is wiped on system restart (ramfs)!
  Note that the default cipher for gpg is cast5, I just chose to use a different one.
  9. Create the encrypted devices with cryptsetup
  Create encrypted swap:
  cryptsetup -c aes-cbc-essiv:sha256 -s 256 -h whirlpool -d /dev/urandom create swap /dev/sda1
  You should see /dev/mapper/swap now. Don't format nor turn it on for now. This will be done by the arch installer.
  Important: From the Cryptsetup 1.1.2 Release notes:
  Cryptsetup can accept passphrase on stdin (standard input). Handling of new line (\n) character is defined by input specification:
      if keyfile is specified as "-" (using --key-file=- or by positional argument in luksFormat and luksAddKey, like cat file | cryptsetup --key-file=- <action> ), input is processed
        as normal binary file and no new line is interpreted.
      if there is no key file specification (with default input from stdin pipe like echo passphrase | cryptsetup <action> ) input is processed as input from terminal, reading will
        stop after new line is detected.
  If I understand this correctly, since the randomly generated key can contain a newline early on, piping the key into cryptsetup without specifying --key-file=- could result in a big part of the key to be ignored by cryptsetup. Example: if the random key was "foo\nandsomemorebaratheendofthekey", piping it directly into cryptsetup without --key-file=- would result in cryptsetup using only "foo" as key which would have big security implications. We should therefor ALWAYS pipe the key into cryptsetup using --key-file=- which ignores newlines.
  gpg -q -d root.gpg 2>/dev/null | cryptsetup -v -–key-file=- -c aes-cbc-essiv:sha256 -s 256 -h whirlpool luksFormat /dev/sda3
  gpg -q -d var.gpg 2>/dev/null | cryptsetup -v –-key-file=- -c aes-cbc-essiv:sha256 -s 256 -h whirlpool -v luksFormat /dev/sda2
  Check for any errors.
  10. Open the luks devices
  gpg -d root.gpg 2>/dev/null | cryptsetup -v –-key-file=- luksOpen /dev/sda3 root
  gpg -d var.gpg 2>/dev/null | cryptsetup -v –-key-file=- luksOpen /dev/sda2 var
  If you see /dev/mapper/root and /dev/mapper/var now, everything is ok.
  11. Start the installer /arch/setup
  Follow steps 1 to 3.
  At step 4 (Prepare hard drive(s), select “3 – Manually Configure block devices, filesystems and mountpoints. Choose /dev/sdb1 (the usb stick) as /boot, /dev/mapper/swap for swap, /dev/mapper/root for / and /dev/mapper/var for /var.
  Format all drives (choose “yes” when asked “do you want to have this filesystem (re)created”) EXCEPT for /dev/sdb1, choose “no”. Choose the correct filesystem for /dev/sdb1, ext2 in my case. Use swap for /dev/mapper/swap. For the rest, I chose ext4.
  Select DONE to start formatting.
  At step 5 (Select packages), select grub as boot loader. Select the base group. Add mkinitcpio.
  Start step 6 (Install packages).
  Go to step 7 (Configure System).
  By sure to set the correct KEYMAP, LOCALE and TIMEZONE in /etc/rc.conf.
  Edit /etc/fstab:
  /dev/mapper/root / ext4 defaults 0 1
  /dev/mapper/swap swap swap defaults 0 0
  /dev/mapper/var /var ext4 defaults 0 1
  # /dev/sdb1 /boot ext2 defaults 0 1
  Configure the rest normally. When you're done, setup will launch mkinitcpio. We'll manually launch this again later.
  Go to step 8 (install boot loader).
  Be sure to change the kernel line in menu.lst:
  kernel /vmlinuz26 root=/dev/mapper/root cryptdevice=/dev/sda3:root cryptkey=/dev/sdb1:ext2:/root.gpg
  Don't forget the :root suffix in cryptdevice!
  Also, my root line was set to (hd1,0). Had to change that to
  root (hd0,0)
  Install grub to /dev/sdb (the usb stick).
  Now, we can exit the installer.
  12. Install mkinitcpio with the etwo hook.
  Create /mnt/lib/initcpio/hooks/etwo:
  #!/usr/bin/ash
  run_hook() {
  /sbin/modprobe -a -q dm-crypt >/dev/null 2>&1
  if [ -e "/sys/class/misc/device-mapper" ]; then
  if [ ! -e "/dev/mapper/control" ]; then
  /bin/mknod "/dev/mapper/control" c $(cat /sys/class/misc/device-mapper/dev | sed 's|:| |')
  fi
  [ "${quiet}" = "y" ] && CSQUIET=">/dev/null"
  # Get keyfile if specified
  ckeyfile="/crypto_keyfile"
  usegpg="n"
  if [ "x${cryptkey}" != "x" ]; then
  ckdev="$(echo "${cryptkey}" | cut -d: -f1)"
  ckarg1="$(echo "${cryptkey}" | cut -d: -f2)"
  ckarg2="$(echo "${cryptkey}" | cut -d: -f3)"
  if poll_device "${ckdev}" ${rootdelay}; then
  case ${ckarg1} in
  *[!0-9]*)
  # Use a file on the device
  # ckarg1 is not numeric: ckarg1=filesystem, ckarg2=path
  if [ "${ckarg2#*.}" = "gpg" ]; then
  ckeyfile="${ckeyfile}.gpg"
  usegpg="y"
  fi
  mkdir /ckey
  mount -r -t ${ckarg1} ${ckdev} /ckey
  dd if=/ckey/${ckarg2} of=${ckeyfile} >/dev/null 2>&1
  umount /ckey
  # Read raw data from the block device
  # ckarg1 is numeric: ckarg1=offset, ckarg2=length
  dd if=${ckdev} of=${ckeyfile} bs=1 skip=${ckarg1} count=${ckarg2} >/dev/null 2>&1
  esac
  fi
  [ ! -f ${ckeyfile} ] && echo "Keyfile could not be opened. Reverting to passphrase."
  fi
  if [ -n "${cryptdevice}" ]; then
  DEPRECATED_CRYPT=0
  cryptdev="$(echo "${cryptdevice}" | cut -d: -f1)"
  cryptname="$(echo "${cryptdevice}" | cut -d: -f2)"
  else
  DEPRECATED_CRYPT=1
  cryptdev="${root}"
  cryptname="root"
  fi
  warn_deprecated() {
  echo "The syntax 'root=${root}' where '${root}' is an encrypted volume is deprecated"
  echo "Use 'cryptdevice=${root}:root root=/dev/mapper/root' instead."
  if poll_device "${cryptdev}" ${rootdelay}; then
  if /sbin/cryptsetup isLuks ${cryptdev} >/dev/null 2>&1; then
  [ ${DEPRECATED_CRYPT} -eq 1 ] && warn_deprecated
  dopassphrase=1
  # If keyfile exists, try to use that
  if [ -f ${ckeyfile} ]; then
  if [ "${usegpg}" = "y" ]; then
  # gpg tty fixup
  if [ -e /dev/tty ]; then mv /dev/tty /dev/tty.backup; fi
  cp -a /dev/console /dev/tty
  while [ ! -e /dev/mapper/${cryptname} ];
  do
  sleep 2
  /usr/bin/gpg -d "${ckeyfile}" 2>/dev/null | cryptsetup --key-file=- luksOpen ${cryptdev} ${cryptname} ${CSQUIET}
  dopassphrase=0
  done
  rm /dev/tty
  if [ -e /dev/tty.backup ]; then mv /dev/tty.backup /dev/tty; fi
  else
  if eval /sbin/cryptsetup --key-file ${ckeyfile} luksOpen ${cryptdev} ${cryptname} ${CSQUIET}; then
  dopassphrase=0
  else
  echo "Invalid keyfile. Reverting to passphrase."
  fi
  fi
  fi
  # Ask for a passphrase
  if [ ${dopassphrase} -gt 0 ]; then
  echo ""
  echo "A password is required to access the ${cryptname} volume:"
  #loop until we get a real password
  while ! eval /sbin/cryptsetup luksOpen ${cryptdev} ${cryptname} ${CSQUIET}; do
  sleep 2;
  done
  fi
  if [ -e "/dev/mapper/${cryptname}" ]; then
  if [ ${DEPRECATED_CRYPT} -eq 1 ]; then
  export root="/dev/mapper/root"
  fi
  else
  err "Password succeeded, but ${cryptname} creation failed, aborting..."
  exit 1
  fi
  elif [ -n "${crypto}" ]; then
  [ ${DEPRECATED_CRYPT} -eq 1 ] && warn_deprecated
  msg "Non-LUKS encrypted device found..."
  if [ $# -ne 5 ]; then
  err "Verify parameter format: crypto=hash:cipher:keysize:offset:skip"
  err "Non-LUKS decryption not attempted..."
  return 1
  fi
  exe="/sbin/cryptsetup create ${cryptname} ${cryptdev}"
  tmp=$(echo "${crypto}" | cut -d: -f1)
  [ -n "${tmp}" ] && exe="${exe} --hash \"${tmp}\""
  tmp=$(echo "${crypto}" | cut -d: -f2)
  [ -n "${tmp}" ] && exe="${exe} --cipher \"${tmp}\""
  tmp=$(echo "${crypto}" | cut -d: -f3)
  [ -n "${tmp}" ] && exe="${exe} --key-size \"${tmp}\""
  tmp=$(echo "${crypto}" | cut -d: -f4)
  [ -n "${tmp}" ] && exe="${exe} --offset \"${tmp}\""
  tmp=$(echo "${crypto}" | cut -d: -f5)
  [ -n "${tmp}" ] && exe="${exe} --skip \"${tmp}\""
  if [ -f ${ckeyfile} ]; then
  exe="${exe} --key-file ${ckeyfile}"
  else
  exe="${exe} --verify-passphrase"
  echo ""
  echo "A password is required to access the ${cryptname} volume:"
  fi
  eval "${exe} ${CSQUIET}"
  if [ $? -ne 0 ]; then
  err "Non-LUKS device decryption failed. verify format: "
  err " crypto=hash:cipher:keysize:offset:skip"
  exit 1
  fi
  if [ -e "/dev/mapper/${cryptname}" ]; then
  if [ ${DEPRECATED_CRYPT} -eq 1 ]; then
  export root="/dev/mapper/root"
  fi
  else
  err "Password succeeded, but ${cryptname} creation failed, aborting..."
  exit 1
  fi
  else
  err "Failed to open encryption mapping: The device ${cryptdev} is not a LUKS volume and the crypto= paramater was not specified."
  fi
  fi
  rm -f ${ckeyfile}
  fi
  Create /mnt/lib/initcpio/install/etwo:
  #!/bin/bash
  build() {
  local mod
  add_module dm-crypt
  if [[ $CRYPTO_MODULES ]]; then
  for mod in $CRYPTO_MODULES; do
  add_module "$mod"
  done
  else
  add_all_modules '/crypto/'
  fi
  add_dir "/dev/mapper"
  add_binary "cryptsetup"
  add_binary "dmsetup"
  add_binary "/usr/bin/gpg"
  add_file "/usr/lib/udev/rules.d/10-dm.rules"
  add_file "/usr/lib/udev/rules.d/13-dm-disk.rules"
  add_file "/usr/lib/udev/rules.d/95-dm-notify.rules"
  add_file "/usr/lib/initcpio/udev/11-dm-initramfs.rules" "/usr/lib/udev/rules.d/11-dm-initramfs.rules"
  add_runscript
  help ()
  cat<<HELPEOF
  This hook allows for an encrypted root device with support for gpg encrypted key files.
  To use gpg, the key file must have the extension .gpg and you have to install gpg and add /usr/bin/gpg
  to your BINARIES var in /etc/mkinitcpio.conf.
  HELPEOF
  Edit /mnt/etc/mkinitcpio.conf (only relevant sections displayed):
  MODULES=”ext2 ext4” # not sure if this is really nessecary.
  BINARIES=”/usr/bin/gpg” # this could probably be done in install/etwo...
  HOOKS=”base udev usbinput keymap autodetect pata scsi sata usb etwo filesystems” # (usbinput is only needed if you have an usb keyboard)
  Copy the initcpio stuff over to the live cd:
  cp /mnt/lib/initcpio/hooks/etwo /lib/initcpio/hooks/
  cp /mnt/lib/initcpio/install/etwo /lib/initcpio/install/
  cp /mnt/etc/mkinitcpio.conf /etc/
  Verify your LOCALE, KEYMAP and TIMEZONE in /etc/rc.conf!
  Now reinstall the initcpio:
  mkinitcpio -g /mnt/boot/kernel26.img
  Make sure there were no errors and that all hooks were included.
  13. Decrypt the "var" key to the encrypted root
  mkdir /mnt/keys
  chmod 500 /mnt/keys
  gpg –output /mnt/keys/var -d /mnt/boot/var.gpg
  chmod 400 /mnt/keys/var
  14. Setup crypttab
  Edit /mnt/etc/crypttab:
  swap /dev/sda1 SWAP -c aes-cbc-essiv:sha256 -s 256 -h whirlpool
  var /dev/sda2 /keys/var
  15. Reboot
  We're done, you may reboot. Make sure you select the usb stick as the boot device in your bios and hope for the best. . If it didn't work, play with grub's settings or boot from the live cd, mount your encrypted devices and check all settings. You might also have less trouble by using uuid's instead of device names.  I chose device names to keep things as simple as possible, even though it's not the optimal way to do it.
  Make backups of your data and your usb stick and do not forget your password(s)! Or you can say goodbye to your data forever...
  Last edited by fabriceb (2013-01-15 22:36:23)

  I'm trying to run my install script that is based on https://bbs.archlinux.org/viewtopic.php?id=129885
  Decrypting the gpg key after grub works, but then "Devce root already exists." appears every second.
  any idea ?
  #!/bin/bash
  # This script is designed to be run in conjunction with a UEFI boot using Archboot intall media.
  # prereqs:
  # EFI "BIOS" set to boot *only* from EFI
  # successful EFI boot of Archboot USB
  # mount /dev/sdb1 /src
  set -o nounset
  #set -o errexit
  # Host specific configuration
  # this whole script needs to be customized, particularly disk partitions
  # and configuration, but this section contains global variables that
  # are used during the system configuration phase for convenience
  HOSTNAME=daniel
  USERNAME=user
  # Globals
  # We don't need to set these here but they are used repeatedly throughout
  # so it makes sense to reuse them and allow an easy, one-time change if we
  # need to alter values such as the install target mount point.
  INSTALL_TARGET="/install"
  HR="--------------------------------------------------------------------------------"
  PACMAN="pacman --noconfirm --config /tmp/pacman.conf"
  TARGET_PACMAN="pacman --noconfirm --config /tmp/pacman.conf -r ${INSTALL_TARGET}"
  CHROOT_PACMAN="pacman --noconfirm --cachedir /var/cache/pacman/pkg --config /tmp/pacman.conf -r ${INSTALL_TARGET}"
  FILE_URL="file:///packages/core-$(uname -m)/pkg"
  FTP_URL='ftp://mirrors.kernel.org/archlinux/$repo/os/$arch'
  HTTP_URL='http://mirrors.kernel.org/archlinux/$repo/os/$arch'
  # Functions
  # I've avoided using functions in this script as they aren't required and
  # I think it's more of a learning tool if you see the step-by-step
  # procedures even with minor duplciations along the way, but I feel that
  # these functions clarify the particular steps of setting values in config
  # files.
  SetValue () {
  # EXAMPLE: SetValue VARIABLENAME '\"Quoted Value\"' /file/path
  VALUENAME="$1" NEWVALUE="$2" FILEPATH="$3"
  sed -i "s+^#\?\(${VALUENAME}\)=.*$+\1=${NEWVALUE}+" "${FILEPATH}"
  CommentOutValue () {
  VALUENAME="$1" FILEPATH="$2"
  sed -i "s/^\(${VALUENAME}.*\)$/#\1/" "${FILEPATH}"
  UncommentValue () {
  VALUENAME="$1" FILEPATH="$2"
  sed -i "s/^#\(${VALUENAME}.*\)$/\1/" "${FILEPATH}"
  # Initialize
  # Warn the user about impending doom, set up the network on eth0, mount
  # the squashfs images (Archboot does this normally, we're just filling in
  # the gaps resulting from the fact that we're doing a simple scripted
  # install). We also create a temporary pacman.conf that looks for packages
  # locally first before sourcing them from the network. It would be better
  # to do either *all* local or *all* network but we can't for two reasons.
  # 1. The Archboot installation image might have an out of date kernel
  # (currently the case) which results in problems when chrooting
  # into the install mount point to modprobe efivars. So we use the
  # package snapshot on the Archboot media to ensure our kernel is
  # the same as the one we booted with.
  # 2. Ideally we'd source all local then, but some critical items,
  # notably grub2-efi variants, aren't yet on the Archboot media.
  # Warn
  timer=9
  echo -e "\n\nMAC WARNING: This script is not designed for APPLE MAC installs and will potentially misconfigure boot to your existing OS X installation. STOP NOW IF YOU ARE ON A MAC.\n\n"
  echo -n "GENERAL WARNING: This procedure will completely format /dev/sda. Please cancel with ctrl-c to cancel within $timer seconds..."
  while [[ $timer -gt 0 ]]
  do
  sleep 1
  let timer-=1
  echo -en "$timer seconds..."
  done
  echo "STARTING"
  # Get Network
  echo -n "Waiting for network address.."
  #dhclient eth0
  dhcpcd -p eth0
  echo -n "Network address acquired."
  # Mount packages squashfs images
  umount "/packages/core-$(uname -m)"
  umount "/packages/core-any"
  rm -rf "/packages/core-$(uname -m)"
  rm -rf "/packages/core-any"
  mkdir -p "/packages/core-$(uname -m)"
  mkdir -p "/packages/core-any"
  modprobe -q loop
  modprobe -q squashfs
  mount -o ro,loop -t squashfs "/src/packages/archboot_packages_$(uname -m).squashfs" "/packages/core-$(uname -m)"
  mount -o ro,loop -t squashfs "/src/packages/archboot_packages_any.squashfs" "/packages/core-any"
  # Create temporary pacman.conf file
  cat << PACMANEOF > /tmp/pacman.conf
  [options]
  Architecture = auto
  CacheDir = ${INSTALL_TARGET}/var/cache/pacman/pkg
  CacheDir = /packages/core-$(uname -m)/pkg
  CacheDir = /packages/core-any/pkg
  [core]
  Server = ${FILE_URL}
  Server = ${FTP_URL}
  Server = ${HTTP_URL}
  [extra]
  Server = ${FILE_URL}
  Server = ${FTP_URL}
  Server = ${HTTP_URL}
  #Uncomment to enable pacman -Sy yaourt
  [archlinuxfr]
  Server = http://repo.archlinux.fr/\$arch
  PACMANEOF
  # Prepare pacman
  [[ ! -d "${INSTALL_TARGET}/var/cache/pacman/pkg" ]] && mkdir -m 755 -p "${INSTALL_TARGET}/var/cache/pacman/pkg"
  [[ ! -d "${INSTALL_TARGET}/var/lib/pacman" ]] && mkdir -m 755 -p "${INSTALL_TARGET}/var/lib/pacman"
  ${PACMAN} -Sy
  ${TARGET_PACMAN} -Sy
  # Install prereqs from network (not on archboot media)
  echo -e "\nInstalling prereqs...\n$HR"
  #sed -i "s/^#S/S/" /etc/pacman.d/mirrorlist # Uncomment all Server lines
  UncommentValue S /etc/pacman.d/mirrorlist # Uncomment all Server lines
  ${PACMAN} --noconfirm -Sy gptfdisk btrfs-progs-unstable libusb-compat gnupg
  # Configure Host
  # Here we create three partitions:
  # 1. efi and /boot (one partition does double duty)
  # 2. swap
  # 3. our encrypted root
  # Note that all of these are on a GUID partition table scheme. This proves
  # to be quite clean and simple since we're not doing anything with MBR
  # boot partitions and the like.
  echo -e "format\n"
  # shred -v /dev/sda
  # disk prep
  sgdisk -Z /dev/sda # zap all on disk
  #sgdisk -Z /dev/mmcb1k0 # zap all on sdcard
  sgdisk -a 2048 -o /dev/sda # new gpt disk 2048 alignment
  #sgdisk -a 2048 -o /dev/mmcb1k0
  # create partitions
  sgdisk -n 1:0:+200M /dev/sda # partition 1 (UEFI BOOT), default start block, 200MB
  sgdisk -n 2:0:+4G /dev/sda # partition 2 (SWAP), default start block, 200MB
  sgdisk -n 3:0:0 /dev/sda # partition 3, (LUKS), default start, remaining space
  #sgdisk -n 1:0:1800M /dev/mmcb1k0 # root.gpg
  # set partition types
  sgdisk -t 1:ef00 /dev/sda
  sgdisk -t 2:8200 /dev/sda
  sgdisk -t 3:8300 /dev/sda
  #sgdisk -t 1:0700 /dev/mmcb1k0
  # label partitions
  sgdisk -c 1:"UEFI Boot" /dev/sda
  sgdisk -c 2:"Swap" /dev/sda
  sgdisk -c 3:"LUKS" /dev/sda
  #sgdisk -c 1:"Key" /dev/mmcb1k0
  echo -e "create gpg file\n"
  # create gpg file
  dd if=/dev/urandom bs=512 count=4 | gpg -v --cipher-algo aes256 --digest-algo sha512 -c -a > /root/root.gpg
  echo -e "format LUKS on root\n"
  # format LUKS on root
  gpg -q -d /root/root.gpg 2>/dev/null | cryptsetup -v --key-file=- -c aes-xts-plain -s 512 --hash sha512 luksFormat /dev/sda3
  echo -e "open LUKS on root\n"
  gpg -d /root/root.gpg 2>/dev/null | cryptsetup -v --key-file=- luksOpen /dev/sda3 root
  # NOTE: make sure to add dm_crypt and aes_i586 to MODULES in rc.conf
  # NOTE2: actually this isn't required since we're mounting an encrypted root and grub2/initramfs handles this before we even get to rc.conf
  # make filesystems
  # following swap related commands not used now that we're encrypting our swap partition
  #mkswap /dev/sda2
  #swapon /dev/sda2
  #mkfs.ext4 /dev/sda3 # this is where we'd create an unencrypted root partition, but we're using luks instead
  echo -e "\nCreating Filesystems...\n$HR"
  # make filesystems
  mkfs.ext4 /dev/mapper/root
  mkfs.vfat -F32 /dev/sda1
  #mkfs.vfat -F32 /dev/mmcb1k0p1
  echo -e "mount targets\n"
  # mount target
  #mount /dev/sda3 ${INSTALL_TARGET} # this is where we'd mount the unencrypted root partition
  mount /dev/mapper/root ${INSTALL_TARGET}
  # mount target
  mkdir ${INSTALL_TARGET}
  # mkdir ${INSTALL_TARGET}/key
  # mount -t vfat /dev/mmcb1k0p1 ${INSTALL_TARGET}/key
  mkdir ${INSTALL_TARGET}/boot
  mount -t vfat /dev/sda1 ${INSTALL_TARGET}/boot
  # Install base, necessary utilities
  mkdir -p ${INSTALL_TARGET}/var/lib/pacman
  ${TARGET_PACMAN} -Sy
  ${TARGET_PACMAN} -Su base
  # curl could be installed later but we want it ready for rankmirrors
  ${TARGET_PACMAN} -S curl
  ${TARGET_PACMAN} -S libusb-compat gnupg
  ${TARGET_PACMAN} -R grub
  rm -rf ${INSTALL_TARGET}/boot/grub
  ${TARGET_PACMAN} -S grub2-efi-x86_64
  # Configure new system
  SetValue HOSTNAME ${HOSTNAME} ${INSTALL_TARGET}/etc/rc.conf
  sed -i "s/^\(127\.0\.0\.1.*\)$/\1 ${HOSTNAME}/" ${INSTALL_TARGET}/etc/hosts
  SetValue CONSOLEFONT Lat2-Terminus16 ${INSTALL_TARGET}/etc/rc.conf
  #following replaced due to netcfg
  #SetValue interface eth0 ${INSTALL_TARGET}/etc/rc.conf
  # write fstab
  # You can use UUID's or whatever you want here, of course. This is just
  # the simplest approach and as long as your drives aren't changing values
  # randomly it should work fine.
  cat > ${INSTALL_TARGET}/etc/fstab <<FSTAB_EOF
  # /etc/fstab: static file system information
  # <file system> <dir> <type> <options> <dump> <pass>
  tmpfs /tmp tmpfs nodev,nosuid 0 0
  /dev/sda1 /boot vfat defaults 0 0
  /dev/mapper/cryptswap none swap defaults 0 0
  /dev/mapper/root / ext4 defaults,noatime 0 1
  FSTAB_EOF
  # write etwo
  mkdir -p /lib/initcpio/hooks/
  mkdir -p /lib/initcpio/install/
  cp /src/etwo_hooks /lib/initcpio/hooks/etwo
  cp /src/etwo_install /lib/initcpio/install/etwo
  mkdir -p ${INSTALL_TARGET}/lib/initcpio/hooks/
  mkdir -p ${INSTALL_TARGET}/lib/initcpio/install/
  cp /src/etwo_hooks ${INSTALL_TARGET}/lib/initcpio/hooks/etwo
  cp /src/etwo_install ${INSTALL_TARGET}/lib/initcpio/install/etwo
  # write crypttab
  # encrypted swap (random passphrase on boot)
  echo cryptswap /dev/sda2 SWAP "-c aes-xts-plain -h whirlpool -s 512" >> ${INSTALL_TARGET}/etc/crypttab
  # copy configs we want to carry over to target from install environment
  mv ${INSTALL_TARGET}/etc/resolv.conf ${INSTALL_TARGET}/etc/resolv.conf.orig
  cp /etc/resolv.conf ${INSTALL_TARGET}/etc/resolv.conf
  mkdir -p ${INSTALL_TARGET}/tmp
  cp /tmp/pacman.conf ${INSTALL_TARGET}/tmp/pacman.conf
  # mount proc, sys, dev in install root
  mount -t proc proc ${INSTALL_TARGET}/proc
  mount -t sysfs sys ${INSTALL_TARGET}/sys
  mount -o bind /dev ${INSTALL_TARGET}/dev
  echo -e "umount boot\n"
  # we have to remount /boot from inside the chroot
  umount ${INSTALL_TARGET}/boot
  # Create install_efi script (to be run *after* chroot /install)
  touch ${INSTALL_TARGET}/install_efi
  chmod a+x ${INSTALL_TARGET}/install_efi
  cat > ${INSTALL_TARGET}/install_efi <<EFI_EOF
  # functions (these could be a library, but why overcomplicate things
  SetValue () { VALUENAME="\$1" NEWVALUE="\$2" FILEPATH="\$3"; sed -i "s+^#\?\(\${VALUENAME}\)=.*\$+\1=\${NEWVALUE}+" "\${FILEPATH}"; }
  CommentOutValue () { VALUENAME="\$1" FILEPATH="\$2"; sed -i "s/^\(\${VALUENAME}.*\)\$/#\1/" "\${FILEPATH}"; }
  UncommentValue () { VALUENAME="\$1" FILEPATH="\$2"; sed -i "s/^#\(\${VALUENAME}.*\)\$/\1/" "\${FILEPATH}"; }
  echo -e "mount boot\n"
  # remount here or grub et al gets confused
  mount -t vfat /dev/sda1 /boot
  # mkinitcpio
  # NOTE: intel_agp drm and i915 for intel graphics
  SetValue MODULES '\\"dm_mod dm_crypt aes_x86_64 ext2 ext4 vfat intel_agp drm i915\\"' /etc/mkinitcpio.conf
  SetValue HOOKS '\\"base udev pata scsi sata usb usbinput keymap consolefont etwo encrypt filesystems\\"' /etc/mkinitcpio.conf
  SetValue BINARIES '\\"/usr/bin/gpg\\"' /etc/mkinitcpio.conf
  mkinitcpio -p linux
  # kernel modules for EFI install
  modprobe efivars
  modprobe dm-mod
  # locale-gen
  UncommentValue de_AT /etc/locale.gen
  locale-gen
  # install and configure grub2
  # did this above
  #${CHROOT_PACMAN} -Sy
  #${CHROOT_PACMAN} -R grub
  #rm -rf /boot/grub
  #${CHROOT_PACMAN} -S grub2-efi-x86_64
  # you can be surprisingly sloppy with the root value you give grub2 as a kernel option and
  # even omit the cryptdevice altogether, though it will wag a finger at you for using
  # a deprecated syntax, so we're using the correct form here
  # NOTE: take out i915.modeset=1 unless you are on intel graphics
  SetValue GRUB_CMDLINE_LINUX '\\"cryptdevice=/dev/sda3:root cryptkey=/dev/sda1:vfat:/root.gpg add_efi_memmap i915.i915_enable_rc6=1 i915.i915_enable_fbc=1 i915.lvds_downclock=1 pcie_aspm=force quiet\\"' /etc/default/grub
  # set output to graphical
  SetValue GRUB_TERMINAL_OUTPUT gfxterm /etc/default/grub
  SetValue GRUB_GFXMODE 960x600x32,auto /etc/default/grub
  SetValue GRUB_GFXPAYLOAD_LINUX keep /etc/default/grub # comment out this value if text only mode
  # install the actual grub2. Note that despite our --boot-directory option we will still need to move
  # the grub directory to /boot/grub during grub-mkconfig operations until grub2 gets patched (see below)
  grub_efi_x86_64-install --bootloader-id=grub --no-floppy --recheck
  # create our EFI boot entry
  # bug in the HP bios firmware (F.08)
  efibootmgr --create --gpt --disk /dev/sda --part 1 --write-signature --label "ARCH LINUX" --loader "\\\\grub\\\\grub.efi"
  # copy font for grub2
  cp /usr/share/grub/unicode.pf2 /boot/grub
  # generate config file
  grub-mkconfig -o /boot/grub/grub.cfg
  exit
  EFI_EOF
  # Install EFI using script inside chroot
  chroot ${INSTALL_TARGET} /install_efi
  rm ${INSTALL_TARGET}/install_efi
  # Post install steps
  # anything you want to do post install. run the script automatically or
  # manually
  touch ${INSTALL_TARGET}/post_install
  chmod a+x ${INSTALL_TARGET}/post_install
  cat > ${INSTALL_TARGET}/post_install <<POST_EOF
  set -o errexit
  set -o nounset
  # functions (these could be a library, but why overcomplicate things
  SetValue () { VALUENAME="\$1" NEWVALUE="\$2" FILEPATH="\$3"; sed -i "s+^#\?\(\${VALUENAME}\)=.*\$+\1=\${NEWVALUE}+" "\${FILEPATH}"; }
  CommentOutValue () { VALUENAME="\$1" FILEPATH="\$2"; sed -i "s/^\(\${VALUENAME}.*\)\$/#\1/" "\${FILEPATH}"; }
  UncommentValue () { VALUENAME="\$1" FILEPATH="\$2"; sed -i "s/^#\(\${VALUENAME}.*\)\$/\1/" "\${FILEPATH}"; }
  # root password
  echo -e "${HR}\\nNew root user password\\n${HR}"
  passwd
  # add user
  echo -e "${HR}\\nNew non-root user password (username:${USERNAME})\\n${HR}"
  groupadd sudo
  useradd -m -g users -G audio,lp,optical,storage,video,games,power,scanner,network,sudo,wheel -s /bin/bash ${USERNAME}
  passwd ${USERNAME}
  # mirror ranking
  echo -e "${HR}\\nRanking Mirrors (this will take a while)\\n${HR}"
  cp /etc/pacman.d/mirrorlist /etc/pacman.d/mirrorlist.orig
  mv /etc/pacman.d/mirrorlist /etc/pacman.d/mirrorlist.all
  sed -i "s/#S/S/" /etc/pacman.d/mirrorlist.all
  rankmirrors -n 5 /etc/pacman.d/mirrorlist.all > /etc/pacman.d/mirrorlist
  # temporary fix for locale.sh update conflict
  mv /etc/profile.d/locale.sh /etc/profile.d/locale.sh.preupdate || true
  # yaourt repo (add to target pacman, not tmp pacman.conf, for ongoing use)
  echo -e "\\n[archlinuxfr]\\nServer = http://repo.archlinux.fr/\\\$arch" >> /etc/pacman.conf
  echo -e "\\n[haskell]\\nServer = http://www.kiwilight.com/\\\$repo/\\\$arch" >> /etc/pacman.conf
  # additional groups and utilities
  pacman --noconfirm -Syu
  pacman --noconfirm -S base-devel
  pacman --noconfirm -S yaourt
  # sudo
  pacman --noconfirm -S sudo
  cp /etc/sudoers /tmp/sudoers.edit
  sed -i "s/#\s*\(%wheel\s*ALL=(ALL)\s*ALL.*$\)/\1/" /tmp/sudoers.edit
  sed -i "s/#\s*\(%sudo\s*ALL=(ALL)\s*ALL.*$\)/\1/" /tmp/sudoers.edit
  visudo -qcsf /tmp/sudoers.edit && cat /tmp/sudoers.edit > /etc/sudoers
  # power
  pacman --noconfirm -S acpi acpid acpitool cpufrequtils
  yaourt --noconfirm -S powertop2
  sed -i "/^DAEMONS/ s/)/ @acpid)/" /etc/rc.conf
  sed -i "/^MODULES/ s/)/ acpi-cpufreq cpufreq_ondemand cpufreq_powersave coretemp)/" /etc/rc.conf
  # following requires my acpi handler script
  echo "/etc/acpi/handler.sh boot" > /etc/rc.local
  # time
  pacman --noconfirm -S ntp
  sed -i "/^DAEMONS/ s/hwclock /!hwclock @ntpd /" /etc/rc.conf
  # wireless (wpa supplicant should already be installed)
  pacman --noconfirm -S iw wpa_supplicant rfkill
  pacman --noconfirm -S netcfg wpa_actiond ifplugd
  mv /etc/wpa_supplicant.conf /etc/wpa_supplicant.conf.orig
  echo -e "ctrl_interface=DIR=/var/run/wpa_supplicant GROUP=network\nupdate_config=1" > /etc/wpa_supplicant.conf
  # make sure to copy /etc/network.d/examples/wireless-wpa-config to /etc/network.d/home and edit
  sed -i "/^DAEMONS/ s/)/ @net-auto-wireless @net-auto-wired)/" /etc/rc.conf
  sed -i "/^DAEMONS/ s/ network / /" /etc/rc.conf
  echo -e "\nWIRELESS_INTERFACE=wlan0" >> /etc/rc.conf
  echo -e "WIRED_INTERFACE=eth0" >> /etc/rc.conf
  echo "options iwlagn led_mode=2" > /etc/modprobe.d/iwlagn.conf
  # sound
  pacman --noconfirm -S alsa-utils alsa-plugins
  sed -i "/^DAEMONS/ s/)/ @alsa)/" /etc/rc.conf
  mv /etc/asound.conf /etc/asound.conf.orig || true
  #if alsamixer isn't working, try alsamixer -Dhw and speaker-test -Dhw -c 2
  # video
  pacman --noconfirm -S base-devel mesa mesa-demos
  # x
  #pacman --noconfirm -S xorg xorg-xinit xorg-utils xorg-server-utils xdotool xorg-xlsfonts
  #yaourt --noconfirm -S xf86-input-wacom-git # NOT NEEDED? input-wacom-git
  #TODO: cut down the install size
  #pacman --noconfirm -S xorg-server xorg-xinit xorg-utils xorg-server-utils
  # TODO: wacom
  # environment/wm/etc.
  #pacman --noconfirm -S xfce4 compiz ccsm
  #pacman --noconfirm -S xcompmgr
  #yaourt --noconfirm -S physlock unclutter
  #pacman --noconfirm -S rxvt-unicode urxvt-url-select hsetroot
  #pacman --noconfirm -S gtk2 #gtk3 # for taffybar?
  #pacman --noconfirm -S ghc
  # note: try installing alex and happy from cabal instead
  #pacman --noconfirm -S haskell-platform haskell-hscolour
  #yaourt --noconfirm -S xmonad-darcs xmonad-contrib-darcs xcompmgr
  #yaourt --noconfirm -S xmobar-git
  # TODO: edit xfce to use compiz
  # TODO: xmonad, but deal with video tearing
  # TODO: xmonad-darcs fails to install from AUR. haskell dependency hell.
  # switching to cabal
  # fonts
  pacman --noconfirm -S terminus-font
  yaourt --noconfirm -S webcore-fonts
  yaourt --noconfirm -S fontforge libspiro
  yaourt --noconfirm -S freetype2-git-infinality
  # TODO: sed infinality and change to OSX or OSX2 mode
  # and create the sym link from /etc/fonts/conf.avail to conf.d
  # misc apps
  #pacman --noconfirm -S htop openssh keychain bash-completion git vim
  #pacman --noconfirm -S chromium flashplugin
  #pacman --noconfirm -S scrot mypaint bc
  #yaourt --noconfirm -S task-git stellarium googlecl
  # TODO: argyll
  POST_EOF
  # Post install in chroot
  #echo "chroot and run /post_install"
  chroot /install /post_install
  rm /install/post_install
  # copy grub.efi file to the default HP EFI boot manager path
  mkdir -p ${INSTALL_TARGET}/boot/EFI/Microsoft/BOOT/
  mkdir -p ${INSTALL_TARGET}/boot/EFI/BOOT/
  cp ${INSTALL_TARGET}/boot/grub/grub.efi ${INSTALL_TARGET}/boot/EFI/Microsoft/BOOT/bootmgfw.efi
  cp ${INSTALL_TARGET}/boot/grub/grub.efi ${INSTALL_TARGET}/boot/EFI/BOOT/BOOTX64.EFI
  cp /root/root.gpg ${INSTALL_TARGET}/boot/
  # NOTES/TODO

• Pen drive usb transcend crazy over arch linux

  The model in question is a pen drive 4Gb Transcend JetFlash V33 that when I enter the port usb notebook with arch Linux not mount automatically (which have done all pen drive I used up to now, friends, colleagues, etc. ...). With gparted (from arch linux) tells me that the pen drive has a space-512mb (unless, that is negative) and space is not allocated (not formatted). Impossible mount from terminal, I type a message from the beginning that the size of the device can not be found after its end (and we believe with a capacity of -512). I gave the pen drive to a friend with windows Xp, where it is regularly recognized (4 gb, FAT 32). Even with the live CD systemrescueCD is regularly recognized and I move into pen a text file above (to test) after mounted it using the terminal. The text file was also seen in windows Xp. I didn't experiment with other Linux distributions. Someone knows that cabbage can be. Sorry for my bad english. Thank you.

  It is definitely able to recognize the USB and DVDs as separate drives; it gives the option of booting from USB, and it gives the memory capacity of the USB drive I used as a live USB, and the memory used for the live CD.  But when it comes time to actually boot, something is going wrong.
  I would suspect it is a problem with the BIOS, if not for the fact that I had a similar issue on my previous system, which used a completely different motherboard.  If it is the same issue, it would either have to be a problem with the DVD drive (although I don't know why it would be against loading some live CDs but not others) or perhaps the way I created the live CDs.  Although, again, I don't understand why the Linux Mint 32-bit DVD would work fine, while both 64-bit DVDs would not.
  I will try using a different DVD drive to boot the DVDs, and if that does not work, I'll try creating a new Arch live CD to see if I can resolve the issue.  But if anyone has any ideas, it would still be greatly appreciated.

• [HOWTO] Installing Arch Linux stable release on Acer Aspire One 522

  [This is a work on progress and my first howto ever]
  These steps will teach you how to install ArchLinux x64 stable release (currently 2010.05) on Acer Aspire One 522 from an existing ArchLinux (your desktop computer)
  As you need a 2.6.37+ kernel to make networking work on the AO522, installing stable release as is won't work.
  This Howto borns with the intention to address this problem.
  You need to be familiarized with Linux internals to follow this howto.
  (Expect this howto to become useless with new stable releases of ArchLinux.)
  Remember to make a backup of your Windows 7 Starter system before installing ArchLinux.
  I did a full raw copy of the harddisk by using systemrescuecd, an external harddisk and dd utility:
  Just boot with systemrescuecd
  Mount your external harddisk on /mnt/floppy for example
  Clone harddisk with: dd if=/dev/sda |gzip -c > /mnt/floppy/ao522.img
  This process took me a lot of time since my external harddisk is USB-1 (almost an entire evening)
  Result image was about 22GB size
  This image will restore partition table, boot sector and all data if things go wrong.
  I followed some of the steps from this guide: https://wiki.archlinux.org/index.php/In … ting_Linux
  If you have some Gentoo Linux experience you will find those steps really familiar.
  You will need 2 USB pendrives or similar storage options.
  One is needed to boot into your netbook, and the other to store our custom archlinux build.
  Making an updated ArchLinux system
  1) Make a local dir on your existing linux system
  # mkdir ./newarch
  2) Install pacman database on it
  # pacman -Sy -r ./newarch
  3) Install base system
  # pacman -S base -r ./newarch
  4) Let's chroot inside
  # cp /etc/resolv.conf ./newarch/etc/
  # cp /etc/pacman.d/mirrorlist ./newarch/etc/pacman.d
  # mount -t proc proc ./newarch/proc
  # mount -t sysfs sys ./newarch/sys
  # mount -o bind /dev ./newarch/dev
  # chroot ./newarch /bin/bash
  5) Edit configuration files
  # nano -w /etc/rc.conf
  # nano -w /etc/hosts
  # nano -w /etc/mkinitcpio.conf
  Forget /etc/fstab for now since you don't know what partitions to use yet
  6) Generate kernel image
  # mkinitcpio -p kernel26
  7) Generate locales
  # nano -w /etc/locale.gen
  # locale-gen
  8) Make a tarball with our custom ArchLinux
  # exit
  # umount ./newarch/proc
  # umount ./newarch/dev
  # umount ./newarch/sys
  # tar -cvpf newarch.tar ./newarch
  9) Copy this tarball to an USB pendrive or external harddisk
  10) Boot your netbook with a Linux bootable USB stick (I used systemrescuecd, and remember to pick the x64 bit kernel at grub screen)
  You can use any linux distribution with usb bootable options. I suppose ArchLinux works too
  To install SystemRescueCD on an USB stick follow this tutorial -> SystemRescueCD on usb stick
  Insert the usb stick on your netbook, switch on, hit F2 to enter BIOS menu, and choose to boot from USB as first option. Save and Exit.
  You should be booting into SystemRescueCD without any problem.
  After initialization you will end in a root prompt.
  11) Let's partition the disk
  You will find 3 partitions if this is your first time:
  /dev/sda1 2048 29362175 14680064 27 Hidden NTFS WinRE
  /dev/sda2 * 29362176 29566975 102400 7 HPFS/NTFS/exFAT
  /dev/sda3 29566976 488397167 229312696 7 HPFS/NTFS/exFAT
  My recomendation is to leave sda1 and sda2 intact, as they have the recovery information to restore Windows 7 Starter
  You have plenty of space with sda3, about 230G.
  So run fdisk/cfdisk and delete /dev/sda3
  Now create a 100M partition for boot
  Now create a Extended partition with all the space left
  Now create a 1GB logical partition for swap
  Now create a 10-15 GB  logical partition for root system
  And finally a logical partition for our home partition with all space left
  Your partition table should look like this:
  /dev/sda1 2048 29362175 14680064 27 Hidden NTFS WinRE
  /dev/sda2 * 29362176 29566975 102400 7 HPFS/NTFS/exFAT
  /dev/sda3 29566976 29771775 102400 83 Linux
  /dev/sda4 29771776 488397167 229312696 5 Extended
  /dev/sda5 29773824 31821823 1024000 83 Linux
  /dev/sda6 31823872 63281151 15728640 83 Linux
  /dev/sda7 63283200 488397167 212556984 83 Linux
  12) Create filesystems
  I choosed ext2 for boot, and reiserfs for root and home partitions.
  # mke2fs /dev/sda3
  # mkreiserfs /dev/sda6
  # mkreiserfs /dev/sda7
  # mkswap /dev/sda5
  13) Mount partitions
  # mkdir arch
  # mount /dev/sda6 arch
  # mkdir arch/boot
  # mount /dev/sda3 arch/boot
  # mkdir arch/home
  # mount /dev/sda7 arch/home
  14) Copy our custom ArchLinux build on it
  # mount /dev/sdb1 /mnt/floppy (for example)
  # cd arch
  # tar -xvpf /mnt/flopy/newarch.tar
  15) Configure /etc/fstab
  Mine is as follows:
  devpts /dev/pts devpts defaults 0 0
  shm /dev/shm tmpfs nodev,nosuid 0 0
  /dev/sda3 /boot ext2 defaults 0 1
  /dev/sda6 / reiserfs defaults 0 1
  /dev/sda7 /home reiserfs defaults 0 1
  /dev/sda5 swap swap defaults 0 0
  16) Chroot in your new system
  # mount -t proc proc ./proc
  # mount -t sysfs sys ./sys
  # mount -o bind /dev ./dev
  # chroot ./ /bin/bash
  17) Install grub
  # grub-install
  Edit /boot/grub/menu.lst to suit your needs
  Mine looks like this:
  timeout 5
  default 0
  color light-blue/black light-cyan/blue
  title Arch Linux
  root (hd0,2)
  kernel /vmlinuz26 root=/dev/sda6 ro
  initrd /kernel26.img
  title Arch Linux Fallback
  root (hd0,2)
  kernel /vmlinuz26 root=/dev/sda6 ro
  initrd /kernel26-fallback.img
  title Windows 7 Recovery
  rootnoverify (hd0,0)
  makeactive
  chainloader +1
  As you see, you can restore Windows 7 Starter from Grub.
  18) Change root password
  # passwd
  19) Add a regular  user account
  # useradd -G video,audio,users -m username
  # passwd username
  20) You're done!
  # exit
  # cd ..
  # umount ./arch/proc
  # umount ./arch/dev
  # umount ./arch/sys
  # umount ./arch/boot
  # umount ./arch/
  # reboot
  Remove the usb stick from your netbook.
  If all went ok, you will be inside your new stable and updated ArchLinux system
  Next post is reserved for software configurations specific to the Acer Aspire One 522
  Last edited by tigrezno (2011-04-20 12:22:38)

  Using acpid to achieve the following:
  - Change screen brightness when operating in battery mode
  - Power off when the power button is pressed
  - Suspend when the lid is down
  - Reduce CPU frequency speed to maximize battery usage
  Remember that system suspend is only supported by ati free driver xf86-video-ati
  1) Install acpid daemon and cpufrequtils
  # pacman -S apcid cpufrequtils
  2) edit acpid handler script
  # nano -w /etc/acpi/handler.sh
  Change the following section:
  ac_adapter)
  case "$2" in
  AC)
  case "$4" in
  00000000)
  echo -n $minspeed >$setspeed
  #/etc/laptop-mode/laptop-mode start
  00000001)
  echo -n $maxspeed >$setspeed
  #/etc/laptop-mode/laptop-mode stop
  esac
  *) logger "ACPI action undefined: $2" ;;
  esac
  for:
  ac_adapter)
  case "$2" in
  ACAD)
  case "$4" in
  00000000)
  echo 3 > /sys/devices/virtual/backlight/acpi_video0/brightness
  cpufreq-set -c 0 -f 800Mhz
  cpufreq-set -c 1 -f 800Mhz
  00000001)
  echo 9 > /sys/devices/virtual/backlight/acpi_video0/brightness
  cpufreq-set -c 0 -f 1000Mhz
  cpufreq-set -c 1 -f 1000Mhz
  esac
  *) logger "ACPI action undefined: $2" ;;
  esac
  Make sure you changed AC) for ACAD)
  Now change this other section:
  button/power)
  #echo "PowerButton pressed!">/dev/tty5
  case "$2" in
  PWRF) logger "PowerButton pressed: $2" ;;
  *) logger "ACPI action undefined: $2" ;;
  esac
  with:
  button/power)
  #echo "PowerButton pressed!">/dev/tty5
  case "$2" in
  PWRF) poweroff ;;
  *) logger "ACPI action undefined: $2" ;;
  esac
  Change:
  button/lid)
  #echo "LID switched!">/dev/tty5
  logger "ACPI group/action undefined: $1 / $2"
  for:
  button/lid)
  pm-suspend && /etc/rc.d/network restart
  logger "ACPI group/action undefined: $1 / $2"
  Network restart is used because wlan0 will disconnect from AP after some time. You can try using iwconfig wlan0 essid <ap> key <key> instead of the network script, but haven't tested it myself.
  3) Start acpid and load modules
  # modprobe powernow-k8
  # /etc/rc.d/acpid start
  Add "acpid" to DAEMONS in /etc/rc.conf to start on boot
  Add "powernow-k8" to the modules sections on /etc/rc.conf to load at boot
  Stopping system freezes due to ethernet driver
  The only way people have found to avoid freezes is by blacklisting atheros kernel drivers.
  To do it at boot just edit /etc/rc.conf and change the MODULES line as this:
  MODULES=(!ath9k !atl1c)
  Reboot and you're done, but remember to not press the Wifi key, because it can freeze your system.
  Correctly starting wireless at boot
  I've found that standard scripts wont load properly my wireless lan. It gave an error telling you to use the WIRELESS_TIMEOUT variable and such.
  To solve this, edit /etc/rc.d/network script and change the wi_up function by adding a second iwconfig command like this:
  wi_up()
  eval iwcfg="\$wlan_${1}"
  [[ ! $iwcfg ]] && return 0
  /usr/sbin/iwconfig $iwcfg
  [[ $WIRELESS_TIMEOUT ]] || WIRELESS_TIMEOUT=2
  sleep $WIRELESS_TIMEOUT
  /usr/sbin/iwconfig $iwcfg
  bssid=$(iwgetid $1 -ra)
  It will do the trick and will start at boot correctly. This is not a solution but a fix.
  Adjust Touchpad to disable false taps
  What I did here is defining an area to be ignored. This area are 3 rectangles on top, left and right of the touchpad.
  This means you can write and press space without having the cursor click out of the window and such.
  # synclient AreaLeftEdge=150
  # synclient AreaRightEdge=1300
  # synclient AreaTopEdge=300
  Also, add it to your /etc/X11/xorg.conf.d/10-evdev.conf:
  Section "InputClass"
  Identifier "evdev touchpad catchall"
  MatchIsTouchpad "on"
  MatchDevicePath "/dev/input/event*"
  Driver "evdev"
  Option "AreaTopEdge" "300"
  Option "AreaLeftEdge" "150"
  Option "AreaRightEdge" "1300"
  EndSection
  You can play with those values. They just work for me.
  Last edited by tigrezno (2011-04-23 13:49:48)

• Recovering earlier installed Windows 7 after installing Arch Linux

  I'm trying to boot windows on my ASUS notebook.
  There was windows 7 from the very beginning (disks C:\ and D:\), then I divided disk D:\ on several partitions and installed Arch Linux. I overwrited Windows boot information by boot part of Linux. Now I want to recover windows, that I still have on hard drive. It doesn's matter what there will be: dualboot or only windows (but dualboot is prefered).
  Disk info:
  [jhon@fckrsns ~]$ sudo fdisk -l
  Disk /dev/sda: 698.7 GiB, 750156374016 bytes, 1465149168 sectors
  Units: sectors of 1 * 512 = 512 bytes
  Sector size (logical/physical): 512 bytes / 4096 bytes
  I/O size (minimum/optimal): 4096 bytes / 4096 bytes
  Disklabel type: gpt
  Disk identifier: 1AFC9DFF-CD3B-4CE1-8CAF-41C3E5B75772
  Device Start End Size Type
  /dev/sda1 2048 411647 200M EFI System
  /dev/sda2 411648 673791 128M Microsoft reserved
  /dev/sda3 673792 586731519 279.5G Microsoft basic data
  /dev/sda4 586731520 691589119 50G Linux filesystem
  /dev/sda5 1412718592 1465147391 25G Windows recovery environment
  /dev/sda6 691589120 901304319 100G Linux filesystem
  /dev/sda7 901304320 1412718591 243.9G Microsoft basic data
  [jhon@fckrsns ~]$ lsblk
  NAME MAJ:MIN RM SIZE RO TYPE MOUNTPOINT
  sda 8:0 0 698.7G 0 disk
  ├─sda1 8:1 0 200M 0 part /boot
  ├─sda2 8:2 0 128M 0 part
  ├─sda3 8:3 0 279.5G 0 part
  ├─sda4 8:4 0 50G 0 part /
  ├─sda5 8:5 0 25G 0 part
  ├─sda6 8:6 0 100G 0 part /home
  └─sda7 8:7 0 243.9G 0 part
  sr0 11:0 1 1024M 0 rom
  [jhon@fckrsns ~]$ lsblk -f
  NAME FSTYPE LABEL UUID MOUNTPOINT
  sda
  ├─sda1 vfat 4DEB-D6D2 /boot
  ├─sda2
  ├─sda3 ntfs OS 62364BE9364BBCB3
  ├─sda4 ext4 c4da4683-871a-49fa-96a3-4da11387d31d /
  ├─sda5 ntfs Recovery 8ECE4F50CE4F2FAF
  ├─sda6 ext4 3eba01c6-e422-4542-8442-16064c74a563 /home
  └─sda7 ntfs 3B29E7794F6CD932
  sr0
  OS partition (/dev/sda3):
  [jhon@fckrsns /]$ ls /run/media/jhon/OS
  altera Boot djvureader DrWeb Quarantine eSupport hiberfil.sys MSOCache N56VM.BIN pagefile.sys Program Files Recovery SecurityScanner.dll VisualCLibs
  AsusVibeData bootmgr Documents and Settings eclipse Games Intel MS.Office.2007.Portable.micro.v.1.16 N56VZ.BIN PerfLogs Program Files (x86) $Recycle.Bin System Volume Information Windows
  AVScanner.ini BOOTSECT.BAK DOSBox_SIM END gcc Keil_v5 mtd NVIDIA ProgramData Qt R.G. Catalyst Users
  I tried to recover MBR with different ways:
  with syslinux:
  [jhon@fckrsns /]$ sudo dd if=/usr/lib/syslinux/bios/mbr.bin of=/dev/sda
  0+1 records in
  0+1 records out
  440 bytes (440 B) copied, 0.0226394 s, 19.4 kB/s
  with ms-sys:
  [jhon@fckrsns /]$ sudo ms-sys --partition /dev/sda1
  Start sector 2048 (nr of hidden sectors) successfully written to /dev/sda1
  Physical disk drive id 0x80 (C:) successfully written to /dev/sda1
  Number of heads (255) successfully written to /dev/sda1
  [jhon@fckrsns /]$ sudo ms-sys --mbr7 /dev/sda
  Windows 7 master boot record successfully written to /dev/sda
  But there is still no way to boot windows.
  I run grub-mkconfig before and after these manipulations with MBR:
  [jhon@fckrsns ~]$ sudo grub-mkconfig -o /boot/grub/grub.cfg
  Generating grub configuration file ...
  Found linux image: /boot/vmlinuz-linux
  Found initrd image: /boot/initramfs-linux.img
  Found fallback initramfs image: /boot/initramfs-linux-fallback.img
  No volume groups found
  done
  [jhon@fckrsns /]$ sudo os-prober
  /dev/cdrom: open failed: No medium found
  No volume groups found
  I installed rEFInd, now I have two choices on boot screen: vmlinuz-linux, which it founded, and my earlier installed grub bootloader.
  Maybe I missed something, but i don't know what exactly.
  Last edited by Jhon (2014-09-28 16:45:38)

  Now I know that I don't need MBR at all (but google told me that recovering windows = recovering MBR..)
  Are there any ways to recover boot information on EFI system partition from Linux without using Windows Live CD and it's bootrec.exe?
  I have bootmgr and bootmgfw.efi files on /dev/sda3 (partition with windows installed), what else I need? Simple copy of bootmgfw.efi to /boot/EFI/Microsoft/Boot/bootmgfw.efi and addition of custom menu item to /etc/grub.d/40_custom does'nt work. There is Windows now in rEFInd and GRUB menus, but there is error on loading.

• [SOLVED] 3d Acceleration on Arch Linux guest

  I've just installed the latest FTP Arch Linux (2009.02) as a Guest running in Virtual Box 3.0.2 in my Windows 7 host, and I cannot get Xorg working at all.
  - 3D Acceleration is enabled for the VM, and 128MB of video memory allocated
  - Guest Additions were installed successfully, added rc.vboxadd to daemons, and everything loads ok on startup.
  Output of 'dmesg | grep vbox':
  vboxadd: Successfully loaded version 3.0.2 (interface 0x0010004)
  vboxvfs: Successfully loaded version 3.0.2 (interface 0x0010004)
  [drm] Initialized vboxvideo 1.0.0 20090303 for 0000:00:02.0 on minor 0
  Here is my .xinitrc:
  /usr/bin/VBoxClient-all
  I've symlinked vboxvideo_dri.so since the installer didn't do it.
  Output of 'ls -l /usr/lib/xorg/modules/dri/vboxvideo_dri.so':
  lrwxrwxrwx 1 root root 19 2009-07-31 22:42 /usr/lib/xorg/modules/dri/vboxvideo_dri.so -> /usr/lib/VBoxOGL.so
  And error when I run 'startx':
  (EE) AIGLX error: dlopen of /usr/lib/xorg/modules/dri/vboxvideo_dri.so failed (libXcomposite.so.1: cannot open shared object file: No such file or directory)
  (EE) AIGLX: reverting to software rendering
  waiting for X server to shut down
  And then it shuts down, without even trying to load swrast_dri.so. But the weirdest part is, that symlink exists, but X is saying it doesn't! I've restarted the VM and still get the same error.
  Here is my xorg.conf (created by installing GA), and I do have HAL up and running, loaded before the rc.vboxadd daemon:
  # Default xorg.conf for Xorg 1.5+ without PCI_TXT_IDS_PATH enabled.
  # This file was created by VirtualBox Additions installer as it
  # was unable to find any existing configuration file for X.
  Section "Device"
  Identifier "VirtualBox Video Card"
  Driver "vboxvideo"
  EndSection
  So... what next? 
  Last edited by timmahcheese (2009-08-03 15:20:55)

  Silly me, I forgot the libxcomposite package. I guess I should read the errors closer.
  Anyway, I'm still getting an error (signal 11) being caused by VBoxClient-all. Here is my Xorg.0.log:
  X.Org X Server 1.6.2
  Release Date: 2009-7-7
  X Protocol Version 11, Revision 0
  Build Operating System: Linux 2.6.30-ARCH i686
  Current Operating System: Linux obi-wan 2.6.30-ARCH #1 SMP PREEMPT Mon Jul 20 11:20:32 UTC 2009 i686
  Build Date: 18 July 2009 08:27:13PM
  Before reporting problems, check http://wiki.x.org
  to make sure that you have the latest version.
  Markers: (--) probed, (**) from config file, (==) default setting,
  (++) from command line, (!!) notice, (II) informational,
  (WW) warning, (EE) error, (NI) not implemented, (??) unknown.
  (==) Log file: "/var/log/Xorg.0.log", Time: Sun Aug 2 23:20:02 2009
  (==) Using config file: "/etc/X11/xorg.conf"
  (==) No Layout section. Using the first Screen section.
  (==) No screen section available. Using defaults.
  (**) |-->Screen "Default Screen Section" (0)
  (**) | |-->Monitor "<default monitor>"
  (==) No device specified for screen "Default Screen Section".
  Using the first device section listed.
  (**) | |-->Device "VirtualBox Video Card"
  (==) No monitor specified for screen "Default Screen Section".
  Using a default monitor configuration.
  (==) Automatically adding devices
  (==) Automatically enabling devices
  (WW) The directory "/usr/share/fonts/Type1" does not exist.
  Entry deleted from font path.
  (==) FontPath set to:
  /usr/share/fonts/misc,
  /usr/share/fonts/100dpi:unscaled,
  /usr/share/fonts/75dpi:unscaled,
  /usr/share/fonts/TTF,
  built-ins
  (==) ModulePath set to "/usr/lib/xorg/modules"
  (II) Cannot locate a core pointer device.
  (II) Cannot locate a core keyboard device.
  (II) The server relies on HAL to provide the list of input devices.
  If no devices become available, reconfigure HAL or disable AllowEmptyInput.
  (II) Loader magic: 0x7a40
  (II) Module ABI versions:
  X.Org ANSI C Emulation: 0.4
  X.Org Video Driver: 5.0
  X.Org XInput driver : 4.0
  X.Org Server Extension : 2.0
  (II) Loader running on linux
  (--) using VT number 7
  (--) PCI:*(0:0:2:0) 80ee:beef:0000:0000 InnoTek Systemberatung GmbH VirtualBox Graphics Adapter rev 0, Mem @ 0xe0000000/134217728
  (WW) Open ACPI failed (/var/run/acpid.socket) (No such file or directory)
  (II) No APM support in BIOS or kernel
  (II) System resource ranges:
  [0] -1 0 0xffffffff - 0xffffffff (0x1) MX[b]
  [1] -1 0 0x000f0000 - 0x000fffff (0x10000) MX[b]
  [2] -1 0 0x000c0000 - 0x000effff (0x30000) MX[b]
  [3] -1 0 0x00000000 - 0x0009ffff (0xa0000) MX[b]
  [4] -1 0 0x0000ffff - 0x0000ffff (0x1) IX[b]
  [5] -1 0 0x00000000 - 0x00000000 (0x1) IX[b]
  (II) LoadModule: "extmod"
  (II) Loading /usr/lib/xorg/modules/extensions//libextmod.so
  (II) Module extmod: vendor="X.Org Foundation"
  compiled for 1.6.2, module version = 1.0.0
  Module class: X.Org Server Extension
  ABI class: X.Org Server Extension, version 2.0
  (II) Loading extension MIT-SCREEN-SAVER
  (II) Loading extension XFree86-VidModeExtension
  (II) Loading extension XFree86-DGA
  (II) Loading extension DPMS
  (II) Loading extension XVideo
  (II) Loading extension XVideo-MotionCompensation
  (II) Loading extension X-Resource
  (II) LoadModule: "dbe"
  (II) Loading /usr/lib/xorg/modules/extensions//libdbe.so
  (II) Module dbe: vendor="X.Org Foundation"
  compiled for 1.6.2, module version = 1.0.0
  Module class: X.Org Server Extension
  ABI class: X.Org Server Extension, version 2.0
  (II) Loading extension DOUBLE-BUFFER
  (II) LoadModule: "glx"
  (II) Loading /usr/lib/xorg/modules/extensions//libglx.so
  (II) Module glx: vendor="X.Org Foundation"
  compiled for 1.6.2, module version = 1.0.0
  ABI class: X.Org Server Extension, version 2.0
  (==) AIGLX enabled
  (II) Loading extension GLX
  (II) LoadModule: "record"
  (II) Loading /usr/lib/xorg/modules/extensions//librecord.so
  (II) Module record: vendor="X.Org Foundation"
  compiled for 1.6.2, module version = 1.13.0
  Module class: X.Org Server Extension
  ABI class: X.Org Server Extension, version 2.0
  (II) Loading extension RECORD
  (II) LoadModule: "dri"
  (II) Loading /usr/lib/xorg/modules/extensions//libdri.so
  (II) Module dri: vendor="X.Org Foundation"
  compiled for 1.6.2, module version = 1.0.0
  ABI class: X.Org Server Extension, version 2.0
  (II) Loading extension XFree86-DRI
  (II) LoadModule: "dri2"
  (II) Loading /usr/lib/xorg/modules/extensions//libdri2.so
  (II) Module dri2: vendor="X.Org Foundation"
  compiled for 1.6.2, module version = 1.1.0
  ABI class: X.Org Server Extension, version 2.0
  (II) Loading extension DRI2
  (II) LoadModule: "vboxvideo"
  (II) Loading /usr/lib/xorg/modules/drivers//vboxvideo_drv.so
  (II) Module vboxvideo: vendor="Sun Microsystems, Inc."
  compiled for 1.5.99.901, module version = 1.0.1
  Module class: X.Org Video Driver
  ABI class: X.Org Video Driver, version 5.0
  (II) VBoxVideo: guest driver for VirtualBox: vbox
  (II) Primary Device is: PCI 00@00:02:0
  (II) resource ranges after xf86ClaimFixedResources() call:
  [0] -1 0 0xffffffff - 0xffffffff (0x1) MX[b]
  [1] -1 0 0x000f0000 - 0x000fffff (0x10000) MX[b]
  [2] -1 0 0x000c0000 - 0x000effff (0x30000) MX[b]
  [3] -1 0 0x00000000 - 0x0009ffff (0xa0000) MX[b]
  [4] -1 0 0x0000ffff - 0x0000ffff (0x1) IX[b]
  [5] -1 0 0x00000000 - 0x00000000 (0x1) IX[b]
  (II) resource ranges after probing:
  [0] -1 0 0xffffffff - 0xffffffff (0x1) MX[b]
  [1] -1 0 0x000f0000 - 0x000fffff (0x10000) MX[b]
  [2] -1 0 0x000c0000 - 0x000effff (0x30000) MX[b]
  [3] -1 0 0x00000000 - 0x0009ffff (0xa0000) MX[b]
  [4] 0 0 0x000a0000 - 0x000affff (0x10000) MS[b]
  [5] 0 0 0x000b0000 - 0x000b7fff (0x8000) MS[b]
  [6] 0 0 0x000b8000 - 0x000bffff (0x8000) MS[b]
  [7] -1 0 0x0000ffff - 0x0000ffff (0x1) IX[b]
  [8] -1 0 0x00000000 - 0x00000000 (0x1) IX[b]
  [9] 0 0 0x000003b0 - 0x000003bb (0xc) IS[b]
  [10] 0 0 0x000003c0 - 0x000003df (0x20) IS[b]
  (II) VBoxVideo(0): VirtualBox guest additions video driver version 3.0.2
  (II) Loading sub module "vbe"
  (II) LoadModule: "vbe"
  (II) Loading /usr/lib/xorg/modules//libvbe.so
  (II) Module vbe: vendor="X.Org Foundation"
  compiled for 1.6.2, module version = 1.1.0
  ABI class: X.Org Video Driver, version 5.0
  (II) Loading sub module "int10"
  (II) LoadModule: "int10"
  (II) Loading /usr/lib/xorg/modules//libint10.so
  (II) Module int10: vendor="X.Org Foundation"
  compiled for 1.6.2, module version = 1.0.0
  ABI class: X.Org Video Driver, version 5.0
  (II) VBoxVideo(0): initializing int10
  (II) VBoxVideo(0): Primary V_BIOS segment is: 0xc000
  (II) VBoxVideo(0): VESA BIOS detected
  (II) VBoxVideo(0): VESA VBE Version 2.0
  (II) VBoxVideo(0): VESA VBE Total Mem: 131072 kB
  (II) VBoxVideo(0): VESA VBE OEM: VirtualBox VBE BIOS http://www.virtualbox.org/
  (II) VBoxVideo(0): VESA VBE OEM Software Rev: 0.2
  (II) VBoxVideo(0): VESA VBE OEM Vendor: Sun Microsystems, Inc.
  (II) VBoxVideo(0): VESA VBE OEM Product: VirtualBox VBE Adapter
  (II) VBoxVideo(0): VESA VBE OEM Product Rev: Sun VirtualBox Version 3.0.2
  (II) Loading sub module "ramdac"
  (II) LoadModule: "ramdac"
  (II) Module "ramdac" already built-in
  (II) Loading sub module "fb"
  (II) LoadModule: "fb"
  (II) Loading /usr/lib/xorg/modules//libfb.so
  (II) Module fb: vendor="X.Org Foundation"
  compiled for 1.6.2, module version = 1.0.0
  ABI class: X.Org ANSI C Emulation, version 0.4
  (II) Loading sub module "shadowfb"
  (II) LoadModule: "shadowfb"
  (II) Loading /usr/lib/xorg/modules//libshadowfb.so
  (II) Module shadowfb: vendor="X.Org Foundation"
  compiled for 1.6.2, module version = 1.0.0
  ABI class: X.Org ANSI C Emulation, version 0.4
  (II) VBoxVideo(0): Creating default Display subsection in Screen section
  "Default Screen Section" for depth/fbbpp 24/32
  (==) VBoxVideo(0): Depth 24, (--) framebuffer bpp 32
  (II) VBoxVideo(0): Output VBOX1 has no monitor section
  (II) VBoxVideo(0): The maximum supported resolution is currently 32000x32000
  (II) VBoxVideo(0): Output VBOX1 has no monitor section
  (II) VBoxVideo(0): Output VBOX1 connected
  (II) VBoxVideo(0): Using exact sizes for initial modes
  (II) VBoxVideo(0): Output VBOX1 using initial mode 1024x768
  (==) VBoxVideo(0): RGB weight 888
  (==) VBoxVideo(0): Default visual is TrueColor
  (==) VBoxVideo(0): Using gamma correction (1.0, 1.0, 1.0)
  (==) VBoxVideo(0): DPI set to (96, 96)
  (II) Loading sub module "dri"
  (II) LoadModule: "dri"
  (II) Reloading /usr/lib/xorg/modules/extensions//libdri.so
  (--) Depth 24 pixmap format is 32 bpp
  (II) do I need RAC? No, I don't.
  (II) resource ranges after preInit:
  [0] -1 0 0xffffffff - 0xffffffff (0x1) MX[b]
  [1] -1 0 0x000f0000 - 0x000fffff (0x10000) MX[b]
  [2] -1 0 0x000c0000 - 0x000effff (0x30000) MX[b]
  [3] -1 0 0x00000000 - 0x0009ffff (0xa0000) MX[b]
  [4] 0 0 0x000a0000 - 0x000affff (0x10000) MS[b]
  [5] 0 0 0x000b0000 - 0x000b7fff (0x8000) MS[b]
  [6] 0 0 0x000b8000 - 0x000bffff (0x8000) MS[b]
  [7] -1 0 0x0000ffff - 0x0000ffff (0x1) IX[b]
  [8] -1 0 0x00000000 - 0x00000000 (0x1) IX[b]
  [9] 0 0 0x000003b0 - 0x000003bb (0xc) IS[b]
  [10] 0 0 0x000003c0 - 0x000003df (0x20) IS[b]
  (==) VBoxVideo(0): Default visual is TrueColor
  drmOpenDevice: node name is /dev/dri/card0
  drmOpenDevice: open result is 10, (OK)
  drmOpenDevice: node name is /dev/dri/card0
  drmOpenDevice: open result is 10, (OK)
  drmOpenByBusid: Searching for BusID pci:0000:00:02.0
  drmOpenDevice: node name is /dev/dri/card0
  drmOpenDevice: open result is 10, (OK)
  drmOpenByBusid: drmOpenMinor returns 10
  drmOpenByBusid: drmGetBusid reports pci:0000:00:02.0
  (II) [drm] DRM interface version 1.3
  (II) [drm] DRM open master succeeded.
  (II) VBoxVideo(0): [drm] Using the DRM lock SAREA also for drawables.
  (II) VBoxVideo(0): [drm] framebuffer handle = 0xe0000000
  (II) VBoxVideo(0): [drm] added 1 reserved context for kernel
  (II) VBoxVideo(0): X context handle = 0x1
  (II) VBoxVideo(0): [drm] installed DRM signal handler
  (II) VBoxVideo(0): visual configurations initialized
  (==) VBoxVideo(0): Backing store disabled
  (II) VBoxVideo(0): RandR 1.2 enabled, ignore the following RandR disabled message.
  (II) VBoxVideo(0): DPMS enabled
  (II) VBoxVideo(0): The VBox video extensions are now enabled.
  (II) VBoxVideo(0): [DRI] installation complete
  (--) RandR disabled
  (II) Initializing built-in extension Generic Event Extension
  (II) Initializing built-in extension SHAPE
  (II) Initializing built-in extension MIT-SHM
  (II) Initializing built-in extension XInputExtension
  (II) Initializing built-in extension XTEST
  (II) Initializing built-in extension BIG-REQUESTS
  (II) Initializing built-in extension SYNC
  (II) Initializing built-in extension XKEYBOARD
  (II) Initializing built-in extension XC-MISC
  (II) Initializing built-in extension SECURITY
  (II) Initializing built-in extension XINERAMA
  (II) Initializing built-in extension XFIXES
  (II) Initializing built-in extension RENDER
  (II) Initializing built-in extension RANDR
  (II) Initializing built-in extension COMPOSITE
  (II) Initializing built-in extension DAMAGE
  (II) AIGLX: Screen 0 is not DRI2 capable
  drmOpenDevice: node name is /dev/dri/card0
  drmOpenDevice: open result is 11, (OK)
  drmOpenByBusid: Searching for BusID pci:0000:00:02.0
  drmOpenDevice: node name is /dev/dri/card0
  drmOpenDevice: open result is 11, (OK)
  drmOpenByBusid: drmOpenMinor returns 11
  drmOpenByBusid: drmGetBusid reports pci:0000:00:02.0
  (II) Next line is added to allow vboxvideo_drv.so to appear as whitelisted driver
  (II) The file referenced, is *NOT* loaded
  (II) Loading /usr/lib/xorg/modules/drivers//ati_drv.so
  (EE) AIGLX error: vboxvideo does not export required DRI extension
  (EE) AIGLX: reverting to software rendering
  (II) AIGLX: Loaded and initialized /usr/lib/xorg/modules/dri/swrast_dri.so
  (II) GLX: Initialized DRISWRAST GL provider for screen 0
  (II) VBoxVideo(0): Setting screen physical size to 270 x 203
  (II) config/hal: Adding input device Macintosh mouse button emulation
  (II) LoadModule: "evdev"
  (II) Loading /usr/lib/xorg/modules/input//evdev_drv.so
  (II) Module evdev: vendor="X.Org Foundation"
  compiled for 1.6.1, module version = 2.2.2
  Module class: X.Org XInput Driver
  ABI class: X.Org XInput driver, version 4.0
  (**) Macintosh mouse button emulation: always reports core events
  (**) Macintosh mouse button emulation: Device: "/dev/input/event0"
  (II) Macintosh mouse button emulation: Found 3 mouse buttons
  (II) Macintosh mouse button emulation: Found x and y relative axes
  (II) Macintosh mouse button emulation: Configuring as mouse
  (**) Macintosh mouse button emulation: YAxisMapping: buttons 4 and 5
  (**) Macintosh mouse button emulation: EmulateWheelButton: 4, EmulateWheelInertia: 10, EmulateWheelTimeout: 200
  (II) XINPUT: Adding extended input device "Macintosh mouse button emulation" (type: MOUSE)
  (**) Macintosh mouse button emulation: (accel) keeping acceleration scheme 1
  (**) Macintosh mouse button emulation: (accel) filter chain progression: 2.00
  (**) Macintosh mouse button emulation: (accel) filter stage 0: 20.00 ms
  (**) Macintosh mouse button emulation: (accel) set acceleration profile 0
  (II) config/hal: Adding input device ImExPS/2 Generic Explorer Mouse
  (**) ImExPS/2 Generic Explorer Mouse: always reports core events
  (**) ImExPS/2 Generic Explorer Mouse: Device: "/dev/input/event5"
  (II) ImExPS/2 Generic Explorer Mouse: Found 5 mouse buttons
  (II) ImExPS/2 Generic Explorer Mouse: Found x and y relative axes
  (II) ImExPS/2 Generic Explorer Mouse: Found scroll wheel(s)
  (II) ImExPS/2 Generic Explorer Mouse: Configuring as mouse
  (**) ImExPS/2 Generic Explorer Mouse: YAxisMapping: buttons 4 and 5
  (**) ImExPS/2 Generic Explorer Mouse: EmulateWheelButton: 4, EmulateWheelInertia: 10, EmulateWheelTimeout: 200
  (II) XINPUT: Adding extended input device "ImExPS/2 Generic Explorer Mouse" (type: MOUSE)
  (**) ImExPS/2 Generic Explorer Mouse: (accel) keeping acceleration scheme 1
  (**) ImExPS/2 Generic Explorer Mouse: (accel) filter chain progression: 2.00
  (**) ImExPS/2 Generic Explorer Mouse: (accel) filter stage 0: 20.00 ms
  (**) ImExPS/2 Generic Explorer Mouse: (accel) set acceleration profile 0
  (II) config/hal: Adding input device AT Translated Set 2 keyboard
  (**) AT Translated Set 2 keyboard: always reports core events
  (**) AT Translated Set 2 keyboard: Device: "/dev/input/event1"
  (II) AT Translated Set 2 keyboard: Found keys
  (II) AT Translated Set 2 keyboard: Configuring as keyboard
  (II) XINPUT: Adding extended input device "AT Translated Set 2 keyboard" (type: KEYBOARD)
  (**) Option "xkb_rules" "evdev"
  (**) Option "xkb_model" "evdev"
  (**) Option "xkb_layout" "us"
  (II) config/hal: Adding input device VirtualBox Guest Service
  (II) LoadModule: "vboxmouse"
  (II) Loading /usr/lib/xorg/modules/input//vboxmouse_drv.so
  (II) Module vboxmouse: vendor="Sun Microsystems Inc."
  compiled for 0.0.0, module version = 1.0.0
  Module class: X.Org XInput Driver
  ABI class: X.Org XInput driver, version 4.0
  (**) VirtualBox Guest Service: always reports core events
  (**) VirtualBox Guest Service: Device: "/dev/vboxadd"
  (II) XINPUT: Adding extended input device "VirtualBox Guest Service" (type: MOUSE)
  (**) VirtualBox Guest Service: (accel) keeping acceleration scheme 1
  (**) VirtualBox Guest Service: (accel) filter chain progression: 2.00
  (**) VirtualBox Guest Service: (accel) filter stage 0: 20.00 ms
  (**) VirtualBox Guest Service: (accel) set acceleration profile 0
  (**) VirtualBox Guest Service: Mouse Integration associated with screen 0
  (II) VirtualBox Guest Service: On.
  Backtrace:
  0: /usr/bin/X(xorg_backtrace+0x3b) [0x813154b]
  1: /usr/bin/X(xf86SigHandler+0x9e) [0x80cacee]
  2: [0xb8008400]
  3: /usr/bin/X(Dispatch+0x80) [0x808c350]
  4: /usr/bin/X(main+0x395) [0x8072005]
  5: /lib/libc.so.6(__libc_start_main+0xe6) [0xb7be2a36]
  6: /usr/bin/X [0x80714b1]
  Fatal server error:
  Caught signal 11. Server aborting
  Please consult the The X.Org Foundation support
  at http://wiki.x.org
  for help.
  Please also check the log file at "/var/log/Xorg.0.log" for additional information.
  (II) Macintosh mouse button emulation: Close
  (II) UnloadModule: "evdev"
  (II) ImExPS/2 Generic Explorer Mouse: Close
  (II) UnloadModule: "evdev"
  (II) AT Translated Set 2 keyboard: Close
  (II) UnloadModule: "evdev"
  (II) VirtualBox Guest Service: Off.
  (II) VirtualBox Guest Service: Close
  (II) UnloadModule: "vboxmouse"
  Last edited by timmahcheese (2009-08-03 04:07:48)

• How to setup grub2 with arch linux and xen, lvm on luks

  OK, so I tried downloading this package from AUR:  https://aur.archlinux.org/packages/xen-git/ , but that has patching problems as noted in the comments.  It looks like the packagebuild sets up all the xen stuff for you, but I can't seem to get the package to install because of the error's while patching.  If anyone can point me in the right direction on what all the extra files in the PKGBUILD are for or how to debug problems with PKGBUILDs not working because of patches.
  So next I just tried to compile the latest xen from git://xenbits.xen.org/xen.git (with ./configure, make, make install) and that seemed to go fine, but I'm a bit confused:
  1.  Do I have to do any additional configuration for xen when working with arch linux?  On ubuntu I could just compile the source, update grub, and make sure to start the x services at runtime.
  2.  How do I set up grub to load xen with this setup?  Right now this is my /boot/grub/grub.cfg:
  GRUB_DEFAULT=0
  GRUB_TIMEOUT=5
  GRUB_DISTRIBUTOR="Arch"
  GRUB_CMDLINE_LINUX_DEFAULT="quiet"
  GRUB_CMDLINE_LINUX="cryptdevice=/dev/sda3:vgStorage"
  # Preload both GPT and MBR modules so that they are not missed
  GRUB_PRELOAD_MODULES="part_gpt part_msdos"
  # Uncomment to enable Hidden Menu, and optionally hide the timeout count
  #GRUB_HIDDEN_TIMEOUT=5
  #GRUB_HIDDEN_TIMEOUT_QUIET=true
  # Uncomment to use basic console
  GRUB_TERMINAL_INPUT=console
  # Uncomment to disable graphical terminal
  #GRUB_TERMINAL_OUTPUT=console
  # The resolution used on graphical terminal
  # note that you can use only modes which your graphic card supports via VBE
  # you can see them in real GRUB with the command `vbeinfo'
  GRUB_GFXMODE=auto
  # Uncomment to allow the kernel use the same resolution used by grub
  GRUB_GFXPAYLOAD_LINUX=keep
  # Uncomment if you want GRUB to pass to the Linux kernel the old parameter
  # format "root=/dev/xxx" instead of "root=/dev/disk/by-uuid/xxx"
  #GRUB_DISABLE_LINUX_UUID=true
  # Uncomment to disable generation of recovery mode menu entries
  GRUB_DISABLE_RECOVERY=true
  # Uncomment and set to the desired menu colors. Used by normal and wallpaper
  # modes only. Entries specified as foreground/background.
  #GRUB_COLOR_NORMAL="light-blue/black"
  #GRUB_COLOR_HIGHLIGHT="light-cyan/blue"
  # Uncomment one of them for the gfx desired, a image background or a gfxtheme
  #GRUB_BACKGROUND="/path/to/wallpaper"
  #GRUB_THEME="/path/to/gfxtheme"
  # Uncomment to get a beep at GRUB start
  #GRUB_INIT_TUNE="480 440 1"
  #GRUB_SAVEDEFAULT="true"
  ~
  I've tried throwing in a line like: XEN_HYPERVISOR_CMDLINE="cryptdevice=/dev/sda3:vgStorage", but nothing new shows up on the grub boot menu.
  First time trying to set up a non-ubuntu system, please help!

  As for XEN.... well you could always try QEMU/KVM or LXC.
  As for the LVM2-on-LUKS/dm-crypt
  My /etc/mkinitcpio.conf looks like this...
  MODULES="aesni_intel ata_generic ata_piix nls_cp437 ext4 intel_agp i915 dm-snapshot"
  BINARIES=""
  FILES=""
  HOOKS="base udev autodetect block keymap encrypt lvm2 filesystems keyboard fsck shutdown"
  /etc/defaults/grub
  GRUB_CMDLINE_LINUX="cryptdevice=/dev/sda2:root:allow-discards"
  GRUB_PRELOAD_MODULES="part_gpt part_msdos"
  GRUB_TERMINAL_INPUT=console
  GRUB_GFXMODE=auto
  GRUB_GFXPAYLOAD_LINUX=keep
  GRUB_DISABLE_RECOVERY=true
  The running grub config looks like this
  /boot/grub/grub.cfg
  9 insmod part_gpt
  10 insmod part_msdos
  53 if loadfont unicode ; then
  54 set gfxmode=auto
  55 load_video
  56 insmod gfxterm
  57 set locale_dir=$prefix/locale
  58 set lang=en_US
  59 insmod gettext
  60 fi
  61 terminal_input console
  62 terminal_output gfxterm
  63 set timeout=3
  84 menuentry 'Backup, Arch Linux grsec kernel' --class arch --class gnu-linux --class gnu --class os $menuentry_id_option 'gnulinux-grsec kernel-true-12341234-8080-8080-8080-332200882255' {
  85 load_video
  86 set gfxpayload=keep
  87 insmod gzio
  88 insmod part_msdos
  89 insmod ext2
  90 set root='hd1,msdos2'
  91 if [ x$feature_platform_search_hint = xy ]; then
  92 search --no-floppy --fs-uuid --set=root --hint-bios=hd1,msdos2 --hint-efi=hd1,msdos2 --hint-baremetal=ahci1,msdos2 BBAAEEAA-FFCC-CCFF-FFCC-AABBCCEEBBAA
  93 else
  94 search --no-floppy --fs-uuid --set=root BBAAEEAA-FFCC-CCFF-FFCC-AABBCCEEBBAA
  95 fi
  96 echo 'Loading Linux grsec kernel ...'
  97 linux /vmlinuz-linux-grsec root=/dev/mapper/VolGroup00-lvroot rw cryptdevice=/dev/sda2:root:allow-discards quiet
  98 echo 'Loading initial ramdisk ...'
  99 initrd /initramfs-linux-grsec.img
  100 }
  Things to note:
  Numerical UUID is the UUID of the ROOT partition.
  Alphabetical UUIS is the BOOT partition
  hd1,msdos2 AND ahci1,msdos2 are how the Grub Bootloader numbers the drives not Linux.
  I have my BOOT partition on a USB stick, and it is the Second partition.
  So, that would make it, Device 2 and Partition 2
  Device numbering starts at 0
  Partition numbering starts at 1
  Oh, and note that you don't need ":allow-discards" ... at all but certainly if you don't have an SSD. Also note that I included the line numbers so it is very clear that I didn't post the whole thing, but instead what I thought was relevant. Finally, I am loading modules that I don't even need, but what the hell... if it ain't broke, don't fix it
  Last edited by hunterthomson (2013-12-04 08:31:45)